@data{10.22002/D1.20274 title = {Atlas of Bacterial and Archaeal Cell Structure - Offline Version 2.3}, author = {Oikonomou, Catherine and Jensen, Grant}, doi = {10.22002/D1.20274}, abstract = {The offline version 2.3 of “The Atlas of Bacterial & Archaeal Cell Structure” by Catherine M. Oikonomou & Grant J. Jensen}, year = {2022}, } @data{10.22002/D1.20180 title = {Audiovisual: Synthetic condensate size correlates with yeast replicative cell age}, author = {Emmanuel D Levy}, doi = {10.22002/D1.20180}, abstract = {Movie 1: Condensates appear within the first cell cycle of a newborn cell.
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Levy, E. D. (2022). Audiovisual: Synthetic condensate size correlates with yeast replicative cell age (Version 1.0). Unknown. https://doi.org/10.22002/D1.20180
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}, year = {2022}, } @data{10.22002/D1.20160 title = {Audiovisual: Expansion Microscopy on Saccharomyces cerevisiae}, author = {Hannah S. Heil}, doi = {10.22002/D1.20160}, abstract = {Supplementary Video 1. The video contains footage and instructions showing how to proceed throughout the protocol, focusing on the most critical steps.
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Heil, H. S. (2022). Audiovisual: Expansion Microscopy on Saccharomyces cerevisiae (Version 1.0). Unknown. https://doi.org/10.22002/D1.20160
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}, year = {2022}, } @data{10.22002/D1.20111 title = {Movies showing PAMD integration of an overdamped harmonic oscillator}, author = {Rosa, Jorge}, doi = {10.22002/D1.20111}, abstract = {Supplementary movies M1 and M2 show execution of the path-accelerated molecular dynamics (PAMD) integration scheme as it accumulates position histograms during simulations of the overdamped harmonic oscillator while respectively performing N_{sample} = 1 (M1) and N_{sample} = 4 (M2) MC path sampling operations per PAMD step. The movies supplement the data on Fig. 3E of the corresponding article published in J. Chem. Phys. (DOI: 10.1063/1.5125455).
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Rosa, J. (2022). Movies showing the PAMD integration scheme on an overdamped harmonic oscillator (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.20111
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}, year = {2022}, } @data{10.22002/D1.20108 title = {Supplementary Movie 4-4 : Posteriorly migration of neural crest cells along the developing gut}, author = {Tang, Weiyi}, doi = {10.22002/D1.20108}, abstract = {We examined cell behaviors at the pharyngeal junction where cardiac neural crest cells start to migrate into heart and enteric structures. When Utrophin-Scarlet or H2B-YFP expressing cardiac neural crest population was imaged in the lateral view, we noticed that as the stream reached pharyngeal arch 6, some cells began to migrate posteriorly along the developing gut.
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Tang, W. (2022). Supplementary Movie 4-4 : Posteriorly migration of neural crest cells along the developing gut (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.20108
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}, year = {2022}, } @data{10.22002/D1.20107 title = {Supplementary Movie 4-3 : Posteriorly migration of neural crest cells along the developing gut}, author = {Tang, Weiyi}, doi = {10.22002/D1.20107}, abstract = {We examined cell behaviors at the pharyngeal junction where cardiac neural crest cells start to migrate into heart and enteric structures. When Utrophin-Scarlet or H2B-YFP expressing cardiac neural crest population was imaged in the lateral view, we noticed that as the stream reached pharyngeal arch 6, some cells began to migrate posteriorly along the developing gut.
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Tang, W. (2022). Supplementary Movie 4-3 : Posteriorly migration of neural crest cells along the developing gut (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.20107
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}, year = {2022}, } @data{10.22002/D1.20106 title = {Supplementary Movie 4-2: migrating neural crest cells expressing membrane-YFP at the posterior vagal level}, author = {Tang, Weiyi}, doi = {10.22002/D1.20106}, abstract = {Migrating neural crest cells expressing membrane-YFP at the posterior vagal level. In vivo time-lapse imaging was performed on tissue slice to capture cellular behaviors.
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Tang, W. (2022). Supplementary Movie 4-2: migrating neural crest cells expressing membrane-YFP at the posterior vagal level (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.20106
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}, year = {2022}, } @data{10.22002/D1.20105 title = {Supplementary Movie 4-1: migrating neural crest cells expressing membrane-YFP at the cardiac level}, author = {Tang, Weiyi}, doi = {10.22002/D1.20105}, abstract = {Migrating neural crest cells expressing membrane-YFP at the cardiac level. Transverse view was imaged using confocal microscopy for 8 hours.
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Tang, W. (2022). Supplementary Movie 4-1: migrating neural crest cells expressing membrane-YFP at the cardiac level (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.20105
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}, year = {2022}, } @data{10.22002/D1.20102 title = {Movie 2-1: Neural tube clonal distribution}, author = {Tang, Weiyi}, doi = {10.22002/D1.20102}, abstract = {A mixture containing equal amounts of five distinct RIA viruses was injected into the lumen of the neural tube at Hamburger and Hamilton (HH) stage 11 (n=6), and harvested the embryos 48 hours-post infection for imaging thick slices in transverse orientation. The clones (cells expressing same color combination) appeared to align orthogonal to the elongation axis of the neural tube.
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Tang, W. (2022). Movie 2-1: Neural tube clonal distribution (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.20102
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}, year = {2022}, } @data{10.22002/D1.20041 title = {Atlas of Bacterial and Archaeal Cell Structure - Offline Version 2.1}, author = {Oikonomou, Catherine and Jensen, Grant}, doi = {10.22002/D1.20041}, abstract = {The offline version 2.1 of “The Atlas of Bacterial & Archaeal Cell Structure” by Catherine M. Oikonomou & Grant J. Jensen
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Oikonomou, C., & Jensen, G. (2022). Atlas of Bacterial and Archaeal Cell Structure - Offline Version 2.1 (Version v2.1). CaltechDATA. https://doi.org/10.22002/D1.20041
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}, year = {2022}, } @data{10.22002/D1.2160 title = {zebrafish islet:TRPV1 vs WT capsaicin behavior}, author = {Prober, David A.}, doi = {10.22002/D1.2160}, abstract = {Video shows WT vs. islet:TRPV1 transgenic zebrafish embryos treated with capsaicin.
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Prober, D. A. (2021). zebrafish islet:TRPV1 vs WT capsaicin behavior (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.2160
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}, year = {2021}, } @data{10.22002/D1.2159 title = {Videotracker with larval zebrafish}, author = {Prober, David A.}, doi = {10.22002/D1.2159}, abstract = {This video shows a larval zebrafish videotracker experiment. The red flashes indicate movements that are detected by the computer.
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Prober, D. (2021). Videotracker with larval zebrafish (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.2159
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}, year = {2021}, } @data{10.22002/D1.2138 title = {Time-lapse microscopy of head mesoderm migration and notochord segregation and intercalation in Xenopus explant.}, author = {Chenbei Chang}, doi = {10.22002/D1.2138}, abstract = {Time-lapse microscopy of head mesoderm migration and notochord segregation and intercalation in Xenopus explant.
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Chenbei Chang. (2021). Time-lapse microscopy of head mesoderm migration and notochord segregation and intercalation in Xenopus explant. (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.2138
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}, year = {2021}, } @data{10.22002/D1.2102 title = {Atlas of Bacterial and Archaeal Cell Structure - Offline Version 2.0}, author = {Oikonomou, Catherine and Jensen, Grant}, doi = {10.22002/D1.2102}, abstract = {The offline version 2.0 of “The Atlas of Bacterial & Archaeal Cell Structure” by Catherine M. Oikonomou & Grant J. Jensen
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Oikonomou, C., & Jensen, G. (2021). Atlas of Bacterial and Archaeal Cell Structure - Offline Version 2.0 (Version v2.0). CaltechDATA. https://doi.org/10.22002/D1.2102
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}, year = {2021}, } @data{10.22002/D1.2095 title = {Supplementary Video S4 is a sample 15-second excerpt from a 5-minute recording of Bradyrhizobium diazoefficiens ΔhpnH in BNM medium.}, author = {Jaime de Anda}, doi = {10.22002/D1.2095}, abstract = {Supplementary Video S4 is a sample 15-second excerpt from a 5-minute recording of Bradyrhizobium diazoefficiens ΔhpnH in BNM medium. Centroid trajectories of sample swimming cells are overplayed as a yellow trace. Recording has been sped up at 2× the acquisition speed.
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De Anda, J. (2021). Supplementary Video S4 is a sample 15-second excerpt from a 5-minute recording of Bradyrhizobium diazoefficiens ΔhpnH in BNM medium. (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.2095
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}, year = {2021}, } @data{10.22002/D1.2094 title = {Supplementary Video S3 is a sample 15-second excerpt from a 5-minute recording of Bradyrhizobium diazoefficiens wild type in BNM medium.}, author = {Jaime de Anda}, doi = {10.22002/D1.2094}, abstract = {Supplementary Video S3 is a sample 15-second excerpt from a 5-minute recording of Bradyrhizobium diazoefficiens wild type in BNM medium. Centroid trajectories of sample swimming cells are overplayed as a yellow trace. Recording has been sped up at 2× the acquisition speed
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De Anda, J. (2021). Supplementary Video S3 is a sample 15-second excerpt from a 5-minute recording of Bradyrhizobium diazoefficiens wild type in BNM medium. (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.2094
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}, year = {2021}, } @data{10.22002/D1.2093 title = {Supplementary Video S2 is a sample 15-second excerpt from a 5-minute recording of Bradyrhizobium diazoefficiens ΔhpnH in PSY medium.}, author = {Jaime de Anda}, doi = {10.22002/D1.2093}, abstract = {Supplementary Video S2 is a sample 15-second excerpt from a 5-minute recording of Bradyrhizobium diazoefficiens ΔhpnH in PSY medium. Centroid trajectories of sample swimming cells are overplayed as a yellow trace. Recording has been sped up at 2× the acquisition speed.
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De Anda, J. (2021). Supplementary Video S2 is a sample 15-second excerpt from a 5-minute recording of Bradyrhizobium diazoefficiens ΔhpnH in PSY medium. (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.2093
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}, year = {2021}, } @data{10.22002/D1.2092 title = {Supplementary Video S1 is a sample 15-second excerpt from a 5-minute recording of Bradyrhizobium diazoefficiens wild type in PSY medium.}, author = {Jaime de Anda}, doi = {10.22002/D1.2092}, abstract = {Supplementary Video S1 is a sample 15-second excerpt from a 5-minute recording of Bradyrhizobium diazoefficiens wild type in PSY medium. Centroid trajectories of sample swimming cells are overplayed as a yellow trace. Recording has been sped up at 2× the acquisition speed.
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De Anda, J. (2021). Supplementary Video S1 is a sample 15-second excerpt from a 5-minute recording of Bradyrhizobium diazoefficiens wild type in PSY medium. (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.2092
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}, year = {2021}, } @data{10.22002/D1.2082 title = {Thesis - Multifunctional Volumetric Metaoptics - Section 2.4 Supplementary Video}, author = {Ballew, Conner}, doi = {10.22002/D1.2082}, abstract = {

This video shows an example of an adjoint-based inverse-design process of a free-space spectral demultiplexer discussed in Chapter 2 Section 2.4 of the thesis “Multifunctional Volumetric Metaoptics” by Conner Ballew. The video illustrates how the device response (squared electric field) and permittivity distribution evolve over the course of the optimization procedure.

The device is designed to sort red, green, and blue wavelength bands to different locations in its focal plane. Beginning with a uniform refractive index distribution at the midpoint of the two material boundaries (in this example, the lower and upper bounds of the refractive index are 1 and 1.5, respectively), the optimization algorithm quickly finds a greyscale solution that achieves the desired wavelength demultiplexing functionality. The remainder of the optimization pushes the refractive index distribution to a “binary” solution, in which the refractive index distribution consists of only n=1 or n=1.5 regions.

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Ballew, C. (2021). Thesis - Multifunctional Volumetric Metaoptics - Section 2.4 Supplementary Video. In This video shows an example of an adjoint-based inverse-design process of a free-space spectral demultiplexer discussed in Chapter 2 Section 2.4 of the thesis “Multifunctional Volumetric Metaoptics” by Conner Ballew. The video illustrates how the device response (squared electric field) and permittivity distribution evolve over the course of the optimization procedure.

The device is designed to sort red: Vol. green (Version 1.0, pp. in which the refractive index distribution consists of only n=1 or n=1.5 regions.). CaltechDATA. https://doi.org/10.22002/D1.2082
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}, year = {2021}, } @data{10.22002/D1.2081 title = {Thesis - Multifunctional Volumetric Metaoptics - Section 3.3 Supplementary Videos}, author = {Ballew, Conner}, doi = {10.22002/D1.2081}, abstract = {These videos show the electric field intensity at the focal plane of the device presented in Chapter 3, Section 3.3 of the thesis “Multifunctional Volumetric Metaoptics” by Conner Ballew. Each video shows how the output electric field power changes as the polarization, wavelength, and incident angle of the input fields are altered.
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Ballew, C. (2021). Thesis - Multifunctional Volumetric Metaoptics - Section 3.3 Supplementary Videos. In These videos show the electric field intensity at the focal plane of the device presented in Chapter 3: Vol. Section 3.3 of the thesis “Multifunctional Volumetric Metaoptics” by Conner Ballew. Each video shows how the output electric field power changes as the polarization (Version 1.0, pp. and incident angle of the input fields are altered.). CaltechDATA. https://doi.org/10.22002/D1.2081
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}, year = {2021}, } @data{10.22002/D1.2074 title = {Movie: Mitchell_mec-3 worms with precipice}, author = {Robin M Mitchell}, doi = {10.22002/D1.2074}, abstract = {Video footage of N2 worm exhibiting precipice response and mec-3 worm failing to exhibit precipice response. The still photos shown in Figure 1 of the micropublication were extracted from these videos.
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Mitchell, R. M. (2021). Movie: Mitchell_mec-3 worms with precipice (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.2074
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}, year = {2021}, } @data{10.22002/D1.2057 title = {Movie: Dillman_Scarpocapsae_Jumping2}, author = {Adler R Dillman}, doi = {10.22002/D1.2057}, abstract = {Video 2 of jumping filmed at 20 kHz to measure velocity and other behavioural kinematics of S. carpocapsae.
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Dillman, A. R. (2021). Movie: Dillman_Scarpocapsae_Jumping2 (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.2057
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}, year = {2021}, } @data{10.22002/D1.2056 title = {Movie: Dillman_Scarpocapsae_Jumping1}, author = {Adler R Dillman}, doi = {10.22002/D1.2056}, abstract = {Video 1 of jumping sequences filmed at 20 kHz to measure velocity and other behavioural kinematics of S. carpocapsae.
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Adler R Dillman. (2021). Movie: Dillman_Scarpocapsae_Jumping1 (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.2056
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}, year = {2021}, } @data{10.22002/D1.1961 title = {Atlas of Bacterial and Archaeal Cell Structure - Offline Version 1.2}, author = {Oikonomou, Catherine and Jensen, Grant}, doi = {10.22002/D1.1961}, abstract = {The offline version 1.2 of “The Atlas of Bacterial & Archaeal Cell Structure” by Catherine M. Oikonomou & Grant J. Jensen
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Oikonomou, C., & Jensen, G. (2021). Atlas of Bacterial and Archaeal Cell Structure - Offline Version 1.2 (Version v1.2). CaltechDATA. https://doi.org/10.22002/D1.1961
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}, year = {2021}, } @data{10.22002/D1.1909 title = {Extended Data Video: Sample movie of eight unc-31(e928) mutants swimming in liquid nematode growth media.}, author = {Nicholas Leonard and Andrés G. Vidal-Gadea}, doi = {10.22002/D1.1909}, abstract = {Sample movie of eight unc-31(e928) mutants swimming in liquid nematode growth media like the ones used to illustrate the functionality of the tracking system. Movies were saved as avi and later imported and processed in ImageJ. The different steps of pre-processing are illustrated as is the result of the tracking analysis.
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Leonard, N., & Vidal-Gadea, A. G. (2021). Sample movie of eight unc-31(e928) mutants swimming in liquid nematode growth media. (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.1909
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Unique Views: 9
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between March 16, 2021 and July 12, 2021
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}, year = {2021}, }