@data{10.22002/D1.20293
    title = {Image: The SSU Processome Component Utp25p is a Pseudohelicase},
    author = {J. Michael Charette}, 
    doi = {10.22002/D1.20293},
    abstract = {Extended figure 2: The high pLDDT domains 1 and 2 of the AlphaFold yeast Utp25 align well to eIF4A. Structural alignment of the individual RecA-like domains 1 and 2 of the AlphaFold yeast Utp25 (P40498) and yeast eIF4A (1FUU; (Caruthers et al. 2000)) crystal structure. The AlphaFold yeast Utp25 is coloured based on pLDDT score, from very low confidence in red to very high confidence in blue (key in bottom right) whereas the yeast eIF4A crystal structure is shown in brown. In domain 1, six regions in the AlphaFold yeast Utp25 are coloured cyan (70 < pLDDT < 90; confident) as opposed to blue (pLDDT > 90, very high confidence). Two of these areas overlap with helicase motifs Q and Ib. Similarly, there are 7 confident areas in domain 2 (cyan), with one overlapping helicase motif VI. The remainder of the helicase motifs are in high confidence areas. The location of the helicase motifs is indicated along with the coordinates of the regions used in the structural alignments of isolated domains 1 and 2.},
    year = {2022},
}

@data{10.22002/D1.20292
    title = {Image: The SSU Processome Component Utp25p is a Pseudohelicase},
    author = {J. Michael Charette}, 
    doi = {10.22002/D1.20292},
    abstract = {Extended figure 1: The N-terminal region of the yeast and human Utp25 is disordered. (Top) PONDR prediction of an N-terminal IDR (aa 1 to ~160) in the yeast Utp25. (Bottom) PONDR prediction of an N-terminal IDR (aa 1 to ~185) in the human UTP25.},
    year = {2022},
}

@data{10.22002/D1.20178
    title = {Image: An automated approach to quantify chemotaxis index in C. elegans},
    author = {Timothy A Crombie}, 
    doi = {10.22002/D1.20178},
    abstract = {Plans for the custom, acrylic plate holder that fits securely on the COPAS BIOSORT stage and accommodates six 6 cm chemotaxis plates
<br>Cite this record as:<br>Crombie, T. A. (2022). <i>Image: An automated approach to quantify chemotaxis index in C. elegans</i> (Version 1.0). Unknown. <a href="https://doi.org/10.22002/D1.20178">https://doi.org/10.22002/D1.20178</a><br> or choose a <a href="https://citation.crosscite.org/?doi=10.22002/D1.20178"> different citation style.</a><br><a href="https://data.datacite.org/application/x-bibtex/10.22002/D1.20178">Download Citation</a><br>},
    year = {2022},
}

@data{10.22002/D1.2157
    title = {Regeneration data - Drosophila},
    author = {Li, Yutian and Sarma, Anish A and Condiotte, Zevin J and Lee, Iris T and Goentoro, Lea}, 
    doi = {10.22002/D1.2157},
    abstract = {Abrams et al., 2020 (https://doi.org/10.1101/2020.11.21.392720). This dataset contains the raw videos analyzed and quantified for generating Figure 5 and the associated supplementary figures. See the source file Drosophila Data.xls for magnification information.
<br>Cite this record as:<br>Li, Y., Sarma, A. A., Condiotte, Z. J., Lee, I. T., &amp; Goentoro, L. (2021). <i>Regeneration data - Drosophila</i> (Version 1.0). CaltechDATA. <a href="https://doi.org/10.22002/D1.2157">https://doi.org/10.22002/D1.2157</a><br> or choose a <a href="https://citation.crosscite.org/?doi=10.22002/D1.2157"> different citation style.</a><br><a href="https://data.datacite.org/application/x-bibtex/10.22002/D1.2157">Download Citation</a><br>
Files available via S3 at https://renc.osn.xsede.org/ini210004tommorrell/0_lgoentor/<br>Exp0619.zip <a class="btn btn-xs piwik_download" 
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    year = {2021},
}

@data{10.22002/D1.1966
    title = {Extended Data Figure: Morphology of amphid and phasmid neurons in IFT-20-deficient worms},
    author = {Dantas, T, J,}, 
    doi = {10.22002/D1.1966},
    abstract = {Extended Data, Figure 1: (A) Illustration of amphid and phasmid neurons in C. elegans. Cilia are marked at the dendritic tips of these neurons. (B) Examples of the Oil lipophilic dye filling test in sensory amphid neurons of wild-type and ift-20 mutant worms. 100% of the ift-20 null worms fail to incorporate dye (N2::15). (C, D) Examples of the amphid and phasmid sensory neuron morphology in wild-type and ift-20 mutant animals with (C) soluble/cytoplasmic GFP (sGFP) or (D) endogenously labeled IFT-74::GFP. White arrows point at dendritic ends where cilia assemble. Despite having relatively normal length and morphology, the dendrites of ift-20 null animals have enlarged regions towards their tips that likely correspond to accumulations of ciliary proteins (such as IFT-74) that fail to reach the ciliary base (representative examples; N2::15). Scale bars, 10 µm.
<br>Cite this record as:<br>Dantas, T, J. (2021). <i>Extended Data Figure 1: Morphology of amphid and phasmid neurons in IFT-20-deficient worms</i> (Version 1.0). CaltechDATA. <a href="https://doi.org/10.22002/D1.1966">https://doi.org/10.22002/D1.1966</a><br> or choose a <a href="https://citation.crosscite.org/?doi=10.22002/D1.1966"> different citation style.</a><br><a href="https://data.datacite.org/application/x-bibtex/10.22002/D1.1966">Download Citation</a><br>
<br>Unique Views: 14<br>Unique Downloads: 1<br> between May 10, 2021 and July 12, 2021<br><a href="https://data.caltech.edu/stats">More info on how stats are collected</a><br>},
    year = {2021},
}

@data{10.22002/D1.1908
    title = {Extended Data Figure: Stencil for the construction of the affordable worm tracker.},
    author = {Nicholas Leonard and Andrés G. Vidal-Gadea}, 
    doi = {10.22002/D1.1908},
    abstract = {Stencil for the construction of the affordable worm tracker. The stencil should be printed in an 8x11in standard page and used as a guide in the construction of the tracker. Refer to the text for instructions.
<br>Cite this record as:<br>Leonard, N., &amp; Vidal-Gadea, A. G. (2021). <i>Stencil for the construction of the affordable worm tracker.</i> (Version 1.0). CaltechDATA. <a href="https://doi.org/10.22002/D1.1908">https://doi.org/10.22002/D1.1908</a><br> or choose a <a href="https://citation.crosscite.org/?doi=10.22002/D1.1908"> different citation style.</a><br><a href="https://data.datacite.org/application/x-bibtex/10.22002/D1.1908">Download Citation</a><br>
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    year = {2021},
}

@data{10.22002/D1.1790
    title = {Induced regeneration in mouse digits},
    author = {Tan, Fayth Hui and Martin L Heithe and Lea A Goentoro}, 
    doi = {10.22002/D1.1790},
    abstract = {This deposit contains the images representing phenotypes observed in induced mouse digit regeneration in the manuscript, ‘A conserved strategy for inducing appendage regeneration.’ This zip archive contains all Alizarin Red/Alcian blue stained mouse digit images (both the digit and the phalanges amputated), representing all the digit phenotypes as quantified in the tables presented in Figure 6—figure supplement 1. All digits were imaged in 100% glycerol, on a Zeiss Stemi 305 dissection microscope with an iPhone 6 camera. Please see the related publication for more details, and contact the corresponding authors for any questions.
Can limb regeneration be induced? Few have pursued this question, and an evolutionarily conserved strategy has yet to emerge. This study reports a strategy for inducing regenerative response in appendages, which works across three species that span the animal phylogeny. In Cnidaria, the frequency of appendage regeneration in the moon jellyfish Aurelia was increased by feeding with the amino acid L-leucine and the growth hormone insulin. In insects, the same strategy induced tibia regeneration in adult Drosophila. Finally, in mammals, L-leucine and sucrose administration induced digit regeneration in adult mice, including dramatically from mid-phalangeal amputation. The conserved effect of L-leucine and insulin/sugar suggests a key role for energetic parameters in regeneration induction. The simplicity by which nutrient supplementation can induce appendage regeneration provides a testable hypothesis across animals.
<br>Cite this record as:<br>Tan, F. H., Heithe, M. L., &amp; Goentoro, L. A. (2020). <i>Induced regeneration in mouse digits</i> (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.1790<br> or choose a <a href="https://citation.crosscite.org/?doi=10.22002/D1.1790"> different citation style.</a><br><a href="https://data.datacite.org/application/x-bibtex/10.22002/D1.1790">Download Citation</a><br>
<br>Unique Views: 4<br>Unique Downloads: 0<br> between December 17, 2020 and July 12, 2021<br><a href="https://data.caltech.edu/stats">More info on how stats are collected</a><br>},
    year = {2020},
}

@data{10.22002/D1.1439
    title = {Crustal Hydration of Ocean-scale Volumes Controlled the Martian Climate and Habitability},
    author = {Adams, Danica}, 
    doi = {10.22002/D1.1439},
    abstract = {Logarithmic hydrogen escape (H/s) represented in color per individual climate case (described in the text). Surface temperature is varied by each row of subplots from 190-300 K. Mesospheric temperature is varied by each column of subplots from 130-170 K. Surface pressure is varied from 0.002-5 bar on the x-axis of each subplot. Three climate conditions are considered (as described in the text): standard conditions, high-altitude water injection, and fixed surface hydrogen mixing ratio of 0.001.
<br>Cite this record as:<br>Adams, D. (2020). <i>Crustal Hydration of Ocean-scale Volumes Controlled the Martian Climate and Habitability</i> (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.1439<br> or choose a <a href="https://citation.crosscite.org/?doi=10.22002/D1.1439"> different citation style.</a><br><a href="https://data.datacite.org/application/x-bibtex/10.22002/D1.1439">Download Citation</a><br>
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    year = {2020},
}

@data{10.22002/D1.1425
    title = {Suppemental Tree files for Chapter 5 of thesis},
    author = {Grayson Chadwick}, 
    doi = {10.22002/D1.1425},
    abstract = {These are images of phylogenetic trees that are supplemental figures to chapter 5 of my thesis.
<br>Cite this record as:<br>Chadwick, G. (2020). <i>Suppemental Tree files for Chapter 5 of thesis</i> (Version 1.0). CaltechDATA. https://doi.org/10.22002/D1.1425<br> or choose a <a href="https://citation.crosscite.org/?doi=10.22002/D1.1425"> different citation style.</a><br><a href="https://data.datacite.org/application/x-bibtex/10.22002/D1.1425">Download Citation</a><br>
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    year = {2020},
}

@data{10.22002/D1.1173
    title = {Titan’s global map combining VIMS and ISS mosaics},
    author = {Seignovert, Benoît and Le Mouélic, Stéphane and Brown, Robert H. and Karkoschka, Erich and Pasek, Virginia and Sotin, Christophe and Turtle, Elizabeth P.}, 
    doi = {10.22002/D1.1173},
    abstract = {Titan global map merging VIMS and ISS datasets, details were presented by B. Seignovert et al. at LPSC 2019 and EPSC/DPS 2019 (cf. related identifiers).
Original maps: VIMS map published by S. Le Mouélic in Icarus 2019 (doi: 10.1016/j.icarus.2018.09.017) with R band at 1.59/1.27 μm, G band at 2.03/1.27 μm, B band: 1.27/1.08 μm. Seamless ISS global map by Cassini Imaging Team published in Dec. 2018 (Photo Journal: PIA-22770) with B/W: albedo map at 938 nm.
Copyrights: Caltech-JPL/Univ. of Arizona/LPG-Univ. of Nantes-CNRS | JPL: CL#19-0905
<br>Cite this record as:<br>Seignovert, B., Le Mouélic, S., Brown, R. H., Karkoschka, E., Pasek, V., Sotin, C., &amp; Turtle, E. P. (2019). <i>Titan’s global map combining VIMS and ISS mosaics</i> (Version 1.1). CaltechDATA. https://doi.org/10.22002/D1.1173<br> or choose a <a href="https://citation.crosscite.org/?doi=10.22002/D1.1173"> different citation style.</a><br><a href="https://data.datacite.org/application/x-bibtex/10.22002/D1.1173">Download Citation</a><br>
<br>Unique Views: 649<br>Unique Downloads: 31<br> between September 17, 2019 and July 12, 2021<br><a href="https://data.caltech.edu/stats">More info on how stats are collected</a><br>},
    year = {2019},
}