Table 7_A zebrafish model of crim1 loss of function has small and misshapen lenses with dysregulated clic4 and fgf1b expression.xlsx by Tien Le (634791)

“…Decreased Crim1 expression in the mouse reduced the number of lens epithelial cells and caused defective adhesion between lens epithelial cells and between the epithelial and fiber cells.…”

Table 3_A zebrafish model of crim1 loss of function has small and misshapen lenses with dysregulated clic4 and fgf1b expression.docx by Tien Le (634791)

“…Decreased Crim1 expression in the mouse reduced the number of lens epithelial cells and caused defective adhesion between lens epithelial cells and between the epithelial and fiber cells.…”

Image 7_A zebrafish model of crim1 loss of function has small and misshapen lenses with dysregulated clic4 and fgf1b expression.tiff by Tien Le (634791)

“…Decreased Crim1 expression in the mouse reduced the number of lens epithelial cells and caused defective adhesion between lens epithelial cells and between the epithelial and fiber cells.…”

Image 3_A zebrafish model of crim1 loss of function has small and misshapen lenses with dysregulated clic4 and fgf1b expression.tiff by Tien Le (634791)

“…Decreased Crim1 expression in the mouse reduced the number of lens epithelial cells and caused defective adhesion between lens epithelial cells and between the epithelial and fiber cells.…”

Table 4_A zebrafish model of crim1 loss of function has small and misshapen lenses with dysregulated clic4 and fgf1b expression.docx by Tien Le (634791)

“…Decreased Crim1 expression in the mouse reduced the number of lens epithelial cells and caused defective adhesion between lens epithelial cells and between the epithelial and fiber cells.…”

Image 8_A zebrafish model of crim1 loss of function has small and misshapen lenses with dysregulated clic4 and fgf1b expression.tiff by Tien Le (634791)

“…Decreased Crim1 expression in the mouse reduced the number of lens epithelial cells and caused defective adhesion between lens epithelial cells and between the epithelial and fiber cells.…”

Image 2_A zebrafish model of crim1 loss of function has small and misshapen lenses with dysregulated clic4 and fgf1b expression.tiff by Tien Le (634791)

“…Decreased Crim1 expression in the mouse reduced the number of lens epithelial cells and caused defective adhesion between lens epithelial cells and between the epithelial and fiber cells.…”

Table 5_A zebrafish model of crim1 loss of function has small and misshapen lenses with dysregulated clic4 and fgf1b expression.docx by Tien Le (634791)

“…Decreased Crim1 expression in the mouse reduced the number of lens epithelial cells and caused defective adhesion between lens epithelial cells and between the epithelial and fiber cells.…”

Image 4_A zebrafish model of crim1 loss of function has small and misshapen lenses with dysregulated clic4 and fgf1b expression.tiff by Tien Le (634791)

“…Decreased Crim1 expression in the mouse reduced the number of lens epithelial cells and caused defective adhesion between lens epithelial cells and between the epithelial and fiber cells.…”

Image 9_A zebrafish model of crim1 loss of function has small and misshapen lenses with dysregulated clic4 and fgf1b expression.tiff by Tien Le (634791)

“…Decreased Crim1 expression in the mouse reduced the number of lens epithelial cells and caused defective adhesion between lens epithelial cells and between the epithelial and fiber cells.…”

Image 5_A zebrafish model of crim1 loss of function has small and misshapen lenses with dysregulated clic4 and fgf1b expression.tiff by Tien Le (634791)

“…Decreased Crim1 expression in the mouse reduced the number of lens epithelial cells and caused defective adhesion between lens epithelial cells and between the epithelial and fiber cells.…”

Table 2_A zebrafish model of crim1 loss of function has small and misshapen lenses with dysregulated clic4 and fgf1b expression.docx by Tien Le (634791)

“…Decreased Crim1 expression in the mouse reduced the number of lens epithelial cells and caused defective adhesion between lens epithelial cells and between the epithelial and fiber cells.…”

Supplementary file 1_Intercropping of short- and tall-stature maize decreases lodging risk without yield penalty at high planting density.docx by Jianhong Ren (2186293)

“…Lodging rate of sole XY under normal and high density was 4.3% and 22.0% in 2021, but lodging was absent for ZD and intercropped XY, which demonstrated that the lodging resistance of intercropped XY was significantly enhanced. This study presents a strategy to enhance maize lodging resistance without yield penalty or requiring additional inputs.…”

(A) PCA score scatter plots; (B)Heat map visualization of detected metabolites in PD and D phases; Various colors in the figure represent the relative content. by Bingshuo Shi (21485387)

High Stability, Piezoelectric Response, and Promising Photocatalytic Activity on the New Pentagonal CGeP₄ Monolayer by José A. S. Laranjeira (18870824)

“…Strongly basic conditions result in a promising band alignment for the new p-CGeP₄ monolayer. …”

High Stability, Piezoelectric Response, and Promising Photocatalytic Activity on the New Pentagonal CGeP₄ Monolayer by José A. S. Laranjeira (18870824)

“…Strongly basic conditions result in a promising band alignment for the new p-CGeP₄ monolayer. …”

电针预处理通过心肌缺血损伤 棕色脂肪组织和 BMP3b/Smad1/5 通路小鼠 by Danying Qian (21730250)

Principal Coordinate Analysis (PCoA) based on (A) Unweighted UniFrac, (B) Weighted UniFrac, (C) Bray-Curtis dissimilarity, and (D) Jaccard similarity. by Manal Ali Ahmad (16868808)

Relationships of different sandstones with the average porosity and average permeability in the study area. by Dong Feng (5375471)

Subjects:

Effect mechanism of weathered on porosity of sandstone. by Dong Feng (5375471)

Subjects: