Root mean square fluctuations of the wild-type (green line) and mutant (H5Q) (purple line) proteins of AKR1C3 (complexed with the ligand NADPH). by Md. Akeruzzaman Shaon (21511929)

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Representative restriction enzyme-digested products on a 2% agarose gel. by Md. Akeruzzaman Shaon (21511929)

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Baseline characteristics of study subjects. by Md. Akeruzzaman Shaon (21511929)

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The radius of gyration of wild-type and mutant (H5Q) AKR1C3 (both complexed with the ligand, NADPH). by Md. Akeruzzaman Shaon (21511929)

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Functional effects of rs12529 (H5Q) on the AKR1C3 protein. by Md. Akeruzzaman Shaon (21511929)

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The distribution of rs12529 (C15G) genotypes among participants categorized by menopausal status. by Md. Akeruzzaman Shaon (21511929)

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Frequency distribution of rs12529 (C15G) genotypes in breast cancer patients and control subjects. by Md. Akeruzzaman Shaon (21511929)

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The clinicopathological information of the patients involved in this study. by Md. Akeruzzaman Shaon (21511929)

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Genotypic distribution of rs12529 in the study subjects. by Md. Akeruzzaman Shaon (21511929)

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Distribution of rs12529 (C15G) genotypes in patients with different tumor grades. by Md. Akeruzzaman Shaon (21511929)

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Distribution of rs12529 (C15G) genotypes in patients with different tumor sizes. by Md. Akeruzzaman Shaon (21511929)

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SI Figure 1- uncropped western blots by Renata Goncalves (15806162)

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Dynamics of Solid–Liquid Compound Droplets on Cylindrically Concave Superhydrophobic Surfaces by Niju K. Mohammed (22631779)

“…Results indicate that the maximum spreading diameter (β_max) and the residence time of the composite droplet decrease with the increasing concavity ratio (δ) due to differences in axial and azimuthal spreading and gravity. …”

Dynamics of Solid–Liquid Compound Droplets on Cylindrically Concave Superhydrophobic Surfaces by Niju K. Mohammed (22631779)

“…Results indicate that the maximum spreading diameter (β_max) and the residence time of the composite droplet decrease with the increasing concavity ratio (δ) due to differences in axial and azimuthal spreading and gravity. …”

Dynamics of Solid–Liquid Compound Droplets on Cylindrically Concave Superhydrophobic Surfaces by Niju K. Mohammed (22631779)

“…Results indicate that the maximum spreading diameter (β_max) and the residence time of the composite droplet decrease with the increasing concavity ratio (δ) due to differences in axial and azimuthal spreading and gravity. …”

Dynamics of Solid–Liquid Compound Droplets on Cylindrically Concave Superhydrophobic Surfaces by Niju K. Mohammed (22631779)

“…Results indicate that the maximum spreading diameter (β_max) and the residence time of the composite droplet decrease with the increasing concavity ratio (δ) due to differences in axial and azimuthal spreading and gravity. …”

Dynamics of Solid–Liquid Compound Droplets on Cylindrically Concave Superhydrophobic Surfaces by Niju K. Mohammed (22631779)

“…Results indicate that the maximum spreading diameter (β_max) and the residence time of the composite droplet decrease with the increasing concavity ratio (δ) due to differences in axial and azimuthal spreading and gravity. …”

Stir casting setup with furnace. by Charles Sarala Rubi (21608723)

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ANOVA for GRG. by Charles Sarala Rubi (21608723)

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Effect of Sliding Speed on GRG. by Charles Sarala Rubi (21608723)

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