Publications: Datasets

  1. The Spliceosomal Protein SF3B5 is a Novel Component of Drosophila SAGA that Functions in Gene Expression Independent of Splicing - Supporting data for Stegeman et al. (2016)

    2017-11-03 20:46:07 | Contributor(s): Rachel Stegeman, Vikki Weake | doi:10.4231/R74Q7S5J

    Supporting and raw data for Figures 1 - 5 from Stegeman R. et al. (2016). The Spliceosomal Protein SF3B5 is a Novel Component of Drosophila SAGA that Functions in Gene Expression Independent of Splicing. Journal of Molecular Biology. PMID: 27185460.

    https://purr.purdue.edu/publications/2810

  2. LIS-Noah daily hydroclimatic dataset for ten U.S. Midwest sites 1980-2012

    2017-11-02 16:22:25 | Contributor(s): Elin M Jacobs | doi:10.4231/R7HH6H73

    Simulated dataset with air temperature, precipitation, ET, soil water content (4 layers) and soil temperature (4 layers) at a daily time scale (1980-2012) for ten 4 by 4 km grids across the U.S. Midwest.

    https://purr.purdue.edu/publications/2571

  3. Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration - Supporting data for Fig 1 from Chen et al. (2017)

    2017-10-30 18:15:00 | Contributor(s): Xinping Chen, Hana Hall, Jeffrey Simpson, Walter Leon-Salas, Donald Ready, Vikki Weake | doi:10.4231/R7JS9NMW

    Supporting microscopy images for Fig 1 from Chen et al. (2017). "Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration"

    https://purr.purdue.edu/publications/2821

  4. Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration - Supporting data for Fig 2 and Fig 5 from Chen et al. (2017)

    2017-10-30 18:15:00 | Contributor(s): Xinping Chen, Hana Hall, Jeffrey Simpson, Walter Leon-Salas, Donald Ready, Vikki Weake | doi:10.4231/R7F18WWG

    Supporting confocal microscopy images for Fig 2 and Fig 5 from Chen et al. (2017). "Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration"

    https://purr.purdue.edu/publications/2822

  5. Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration - Supporting data for Fig 4 from Chen et al. (2017)

    2017-10-30 18:14:00 | Contributor(s): Xinping Chen, Hana Hall, Jeffrey Simpson, Walter Leon-Salas, Donald Ready, Vikki Weake | doi:10.4231/R7X34VNF

    Supporting confocal and electron microscopy images for Fig 4 from Chen et al. (2017). "Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration"

    https://purr.purdue.edu/publications/2826

  6. Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration - Supporting data for Fig 3 (part 2) from Chen et al. (2017)

    2017-10-30 18:14:00 | Contributor(s): Xinping Chen, Hana Hall, Jeffrey Simpson, Walter Leon-Salas, Donald Ready, Vikki Weake | doi:10.4231/R7HT2MG2

    Supporting electron microscopy images for Fig 3 (part 2) from Chen et al. (2017). "Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration"

    https://purr.purdue.edu/publications/2825

  7. Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration - Supporting data for Fig 3 (part 1) from Chen et al. (2017)

    2017-10-30 18:14:00 | Contributor(s): Xinping Chen, Hana Hall, Jeffrey Simpson, Walter Leon-Salas, Donald Ready, Vikki Weake | doi:10.4231/R798855J

    Supporting electron microscopy images for Fig 3 (part 1) from Chen et al. (2017). "Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration"

    https://purr.purdue.edu/publications/2824

  8. Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration - Supporting data for Fig 6 from Chen et al. (2017)

    2017-10-30 18:14:00 | Contributor(s): Xinping Chen, Hana Hall, Jeffrey Simpson, Walter Leon-Salas, Donald Ready, Vikki Weake | doi:10.4231/R7SB43X3

    Supporting confocal microscopy images and ROS assays for Fig 6 from Chen et al. (2017). "Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration"

    https://purr.purdue.edu/publications/2827

  9. Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration - Supporting data for supplemental Figures from Chen et al. (2017)

    2017-10-30 04:00:00 | Contributor(s): Xinping Chen, Hana Hall, Jeffrey Simpson, Walter Leon-Salas, Donald Ready, Vikki Weake | doi:10.4231/R7NK3C6S

    Supporting data for supplemental Figures Fig. S1 - Fig. S6 from Chen et al. (2017). "Cytochrome b5 protects photoreceptors from light stress-induced lipid peroxidation and retinal degeneration"

    https://purr.purdue.edu/publications/2828

  10. A programmable optical stimulator for the Drosophila eye - Supporting biological data for Chen et al. (2017).

    2017-10-27 17:00:32 | Contributor(s): Xinping Chen, Donald F Ready, Vikki Weake, Walter Leon-Salas | doi:10.4231/R75H7DFT

    Confocal microscopy images for Chen et al. (2017). HardwareX. "A programmable optical stimulator for the Drosophila eye" 13-33.

    https://purr.purdue.edu/publications/2831

  11. Loading variable-precision recurrence coefficients

    2017-11-02 22:44:24 | Contributor(s): Walter Gautschi | doi:10.4231/R7T151VZ

    Loading a text file of variable-precision recurrence coefficients into Matlab symbolic or double-precision arrays

    https://purr.purdue.edu/publications/2271

  12. Native and invasive vegetation and soil data in the eastern US

    2017-10-24 20:57:36 | Contributor(s): Insu Jo, Kevin Potter, Grant Domke, Songlin Fei | doi:10.4231/R73F4MSB

    Vegetation and soil data from the FIA Program, which includes vegetation attributes and soil and forest floor attributes of 288 permanent plots across the eastern USA

    https://purr.purdue.edu/publications/2854

  13. 32-digit values of the first 100 recurrence coefficients for the upper subrange Binet weight function on [c,Inf], c=1

    2017-10-24 12:00:29 | Contributor(s): Walter Gautschi | doi:10.4231/R7CZ35CV

    32-digit values of the first 100 recurrence coefficients for the weight function w(x)=-log(1-exp(-x)) on [c,Inf], c=1

    https://purr.purdue.edu/publications/2531

  14. 32-digit values of the first 100 recurrence coefficients for the Binet weight function

    2017-10-24 11:59:42 | Contributor(s): Walter Gautschi | doi:10.4231/R7PC30JZ

    32-digit values of the first 100 recurrence coefficients for the weight function w(x)=-log(1-exp(-|x|)) on [-Inf,Inf]

    https://purr.purdue.edu/publications/2533

  15. 32-digit values of the first 100 recurrence coefficients for the half-range Freud weight function with exponent 10

    2017-10-23 16:05:20 | Contributor(s): Walter Gautschi | doi:10.4231/R72N50FJ

    32-digit values of the first 100 recurrence coefficients for the weight function w(x)=x^mu*exp(-x^nu) on [0,Inf], mu=0, nu=10

    https://purr.purdue.edu/publications/2846

  16. 32-digit values of the first 100 recurrence coefficients for the half-range Freud weight function with exponent 8

    2017-10-23 16:04:43 | Contributor(s): Walter Gautschi | doi:10.4231/R76D5R5W

    32-digit values of the first 100 recurrence coefficients for the weight function w(x)=x^mu*exp(-x^nu) on [0,Inf], mu=0, nu=8

    https://purr.purdue.edu/publications/2845

  17. 32-digit values of the first 100 recurrence coefficients for the half-range Freud weight function with exponent 6

    2017-10-23 16:04:03 | Contributor(s): Walter Gautschi | doi:10.4231/R7B56GW6

    32-digit values of the first 100 recurrence coefficients for the weight function w(x)=x^mu*exp(-x^nu) on [0,Inf], mu=0, nu=6

    https://purr.purdue.edu/publications/2844

  18. 32-digit values of the first 100 recurrence coefficients for the half-range squared generalized Binet weight function with parameter 1/2

    2017-10-23 16:01:41 | Contributor(s): Walter Gautschi | doi:10.4231/R7FT8J7R

    32-digit values of the first 100 recurrence coefficients for the weight function w(x)=log^2(1-a*exp(-x)) on [0,Inf], a = 1/2

    https://purr.purdue.edu/publications/2842

  19. 32-digit values of the first 100 recurrence coefficients for the half-range squared Binet weight function

    2017-10-23 15:57:20 | Contributor(s): Walter Gautschi | doi:10.4231/R7KK98Z2

    32-digit values of the first 100 recurrence coefficients for the weight function w(x)=log^2(1-exp(-x)) on [0,Inf]

    https://purr.purdue.edu/publications/2841

  20. 32-digit values of the first 100 recurrence coefficients for the half-range generalized Binet weight function with parameter 1/2

    2017-10-23 15:04:28 | Contributor(s): Walter Gautschi | doi:10.4231/R7QC01NW

    32-digit values of the first 100 recurrence coefficients for the half-range generalized Binet weight function w(x)=-log(1-a*exp(-x)) on [0,Inf], a = 1/2

    https://purr.purdue.edu/publications/2840

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