Table 1_Regulation of DNA methylation in lesional tissue of children with atopic dermatitis.docx by Demet Kartal (20817926)

“…</p>Results<p>The mRNA expression levels of DNMT3A genes were significantly increased, while the mRNA expression levels of DNMT3B, TET1, and TET2 genes were statistically significantly reduced in the lesional tissue of patients compared to the control group. …”

Data Sheet 1_The role of lycopene in alleviating soybean meal-induced intestinal injury in an early-weaned piglet model.docx by Shugui Zheng (18151898)

“…</p>Conclusion<p>These findings demonstrated that lycopene supplementation in SBM-based diets significantly enhanced antioxidant capacity, decreased apoptosis in small intestinal cells, improved intestinal barrier function and morphology, and optimized gut microbiota composition. …”

Image 3_Assessment of the brain impact of soccer heading using pupillary light reflex.tif by Junzo Nakao (21429026)

“…In session 2, only CH significantly decreased compared with the baseline. CH significantly decreases from the 20th heading onwards in session 1 compared with session 2 (both at 20 and 30 headings; p < 0.001). …”

Table 1_Assessment of the brain impact of soccer heading using pupillary light reflex.docx by Junzo Nakao (21429026)

“…In session 2, only CH significantly decreased compared with the baseline. CH significantly decreases from the 20th heading onwards in session 1 compared with session 2 (both at 20 and 30 headings; p < 0.001). …”

Image 2_Assessment of the brain impact of soccer heading using pupillary light reflex.tif by Junzo Nakao (21429026)

“…In session 2, only CH significantly decreased compared with the baseline. CH significantly decreases from the 20th heading onwards in session 1 compared with session 2 (both at 20 and 30 headings; p < 0.001). …”

Image 1_Assessment of the brain impact of soccer heading using pupillary light reflex.tif by Junzo Nakao (21429026)

“…In session 2, only CH significantly decreased compared with the baseline. CH significantly decreases from the 20th heading onwards in session 1 compared with session 2 (both at 20 and 30 headings; p < 0.001). …”

Image 4_Assessment of the brain impact of soccer heading using pupillary light reflex.tif by Junzo Nakao (21429026)

“…In session 2, only CH significantly decreased compared with the baseline. CH significantly decreases from the 20th heading onwards in session 1 compared with session 2 (both at 20 and 30 headings; p < 0.001). …”

Optimisation of read depth, DNA quantity, and unique alternate observation threshold. by Melinda L. Tursky (20790436)

“…The mean number of variants detected per sample above the standard CHIP threshold of ≥ 0.02 VAF increased linearly with subject age (E). …”

Table 2_Lyg1 deficiency aggravated LPS-induced chronic epididymal inflammation and sperm dysfunction in mouse.docx by XueXia Liu (13114949)

“…However, LPS-induced inflammation led to more severe epididymal damage, enhanced oxidative stress, abnormal ECM pathways and worse sperm dysfunction (reduced acrosomal integrity and functional proteins) in KO mice. IVF showed a more significant decrease in fertilization rate in KO mice.…”

Table 1_Lyg1 deficiency aggravated LPS-induced chronic epididymal inflammation and sperm dysfunction in mouse.docx by XueXia Liu (13114949)

“…However, LPS-induced inflammation led to more severe epididymal damage, enhanced oxidative stress, abnormal ECM pathways and worse sperm dysfunction (reduced acrosomal integrity and functional proteins) in KO mice. IVF showed a more significant decrease in fertilization rate in KO mice.…”

Image 7_Lyg1 deficiency aggravated LPS-induced chronic epididymal inflammation and sperm dysfunction in mouse.jpeg by XueXia Liu (13114949)

“…However, LPS-induced inflammation led to more severe epididymal damage, enhanced oxidative stress, abnormal ECM pathways and worse sperm dysfunction (reduced acrosomal integrity and functional proteins) in KO mice. IVF showed a more significant decrease in fertilization rate in KO mice.…”

Image 2_Lyg1 deficiency aggravated LPS-induced chronic epididymal inflammation and sperm dysfunction in mouse.jpeg by XueXia Liu (13114949)

“…However, LPS-induced inflammation led to more severe epididymal damage, enhanced oxidative stress, abnormal ECM pathways and worse sperm dysfunction (reduced acrosomal integrity and functional proteins) in KO mice. IVF showed a more significant decrease in fertilization rate in KO mice.…”

Image 4_Lyg1 deficiency aggravated LPS-induced chronic epididymal inflammation and sperm dysfunction in mouse.jpeg by XueXia Liu (13114949)

“…However, LPS-induced inflammation led to more severe epididymal damage, enhanced oxidative stress, abnormal ECM pathways and worse sperm dysfunction (reduced acrosomal integrity and functional proteins) in KO mice. IVF showed a more significant decrease in fertilization rate in KO mice.…”

Data Sheet 1_Lyg1 deficiency aggravated LPS-induced chronic epididymal inflammation and sperm dysfunction in mouse.pdf by XueXia Liu (13114949)

“…However, LPS-induced inflammation led to more severe epididymal damage, enhanced oxidative stress, abnormal ECM pathways and worse sperm dysfunction (reduced acrosomal integrity and functional proteins) in KO mice. IVF showed a more significant decrease in fertilization rate in KO mice.…”

Image 5_Lyg1 deficiency aggravated LPS-induced chronic epididymal inflammation and sperm dysfunction in mouse.jpeg by XueXia Liu (13114949)

“…However, LPS-induced inflammation led to more severe epididymal damage, enhanced oxidative stress, abnormal ECM pathways and worse sperm dysfunction (reduced acrosomal integrity and functional proteins) in KO mice. IVF showed a more significant decrease in fertilization rate in KO mice.…”

Image 6_Lyg1 deficiency aggravated LPS-induced chronic epididymal inflammation and sperm dysfunction in mouse.jpeg by XueXia Liu (13114949)

“…However, LPS-induced inflammation led to more severe epididymal damage, enhanced oxidative stress, abnormal ECM pathways and worse sperm dysfunction (reduced acrosomal integrity and functional proteins) in KO mice. IVF showed a more significant decrease in fertilization rate in KO mice.…”

Data Sheet 2_Lyg1 deficiency aggravated LPS-induced chronic epididymal inflammation and sperm dysfunction in mouse.pdf by XueXia Liu (13114949)

“…However, LPS-induced inflammation led to more severe epididymal damage, enhanced oxidative stress, abnormal ECM pathways and worse sperm dysfunction (reduced acrosomal integrity and functional proteins) in KO mice. IVF showed a more significant decrease in fertilization rate in KO mice.…”

Image 1_Lyg1 deficiency aggravated LPS-induced chronic epididymal inflammation and sperm dysfunction in mouse.jpeg by XueXia Liu (13114949)

“…However, LPS-induced inflammation led to more severe epididymal damage, enhanced oxidative stress, abnormal ECM pathways and worse sperm dysfunction (reduced acrosomal integrity and functional proteins) in KO mice. IVF showed a more significant decrease in fertilization rate in KO mice.…”

Table 3_Lyg1 deficiency aggravated LPS-induced chronic epididymal inflammation and sperm dysfunction in mouse.docx by XueXia Liu (13114949)

“…However, LPS-induced inflammation led to more severe epididymal damage, enhanced oxidative stress, abnormal ECM pathways and worse sperm dysfunction (reduced acrosomal integrity and functional proteins) in KO mice. IVF showed a more significant decrease in fertilization rate in KO mice.…”

Image 3_Lyg1 deficiency aggravated LPS-induced chronic epididymal inflammation and sperm dysfunction in mouse.jpeg by XueXia Liu (13114949)

“…However, LPS-induced inflammation led to more severe epididymal damage, enhanced oxidative stress, abnormal ECM pathways and worse sperm dysfunction (reduced acrosomal integrity and functional proteins) in KO mice. IVF showed a more significant decrease in fertilization rate in KO mice.…”