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.…”

Supplementary file 1_Widespread declining in vegetation climate sensitivity across Central Asia.docx by Ping Jiang (243020)

“…Temporally, the VSI in Central Asia showed a clear declining trend, with the rate of decrease accelerating after 1995 from −0.274 to −0.476. …”

Table 1_Flammulina velutipes mycorrhizae dietary fiber attenuates the development of obesity via regulating lipid metabolism in high-fat diet-induced obese mice.xlsx by Fengjuan Jia (703605)

“…</p>Results<p>The study, which included an evaluation of Fv-DF on a high-fat diet (HFD)-induced obese mice, revealed that Fv-DF supplementation can effectively decrease weight gain, improve serum lipid levels, and reduce fat deposition in adipose tissues. …”

Table 1_Antimicrobial susceptibility profiles of commensal Clostridium perfringens isolates from chickens in Hungarian poultry farms between 2022 and 2023.docx by Ádám Kerek (14263613)

“…</p>Results<p>Our findings revealed a decrease in the efficacy of penicillin-based antibiotics, which are primary choices for treating C. perfringens-related infections, with resistance observed in 48.3% of isolates for penicillin and 20.7% for amoxicillin. …”

Supplementary Material for: Dynamics of RTEL1 helicase in meiotic cells: spatiotemporal distribution during prophase I in the rat Rattus norvegicus by figshare admin karger (2628495)

“…As meiosis progresses from early pachytene to diplotene, the significant decrease in RTEL1 and RPA signals underscores their predominant involvement in early prophase I. …”

Datasheet1_Analysis of blood metabolite characteristics at birth in preterm infants with bronchopulmonary dysplasia: an observational cohort study.pdf by Yanping Guo (2467576)

“…To control for GA differences, we conducted a subgroup analysis. In the GA 24⁺⁴–27⁺⁶ weeks subgroup, we observed a significant decrease in histidine levels and the ornithine/citrulline ratio in the BPD group. …”

Table 2_Flammulina velutipes mycorrhizae dietary fiber attenuates the development of obesity via regulating lipid metabolism in high-fat diet-induced obese mice.xlsx by Fengjuan Jia (703605)

“…</p>Results<p>The study, which included an evaluation of Fv-DF on a high-fat diet (HFD)-induced obese mice, revealed that Fv-DF supplementation can effectively decrease weight gain, improve serum lipid levels, and reduce fat deposition in adipose tissues. …”

Sustainable soil and organic matter managements for reducing straw burning, greenhouse gas production and emission, and their influencing factors in Northwest India by Iori Sahara (21245399)

“…Although wheat yield was not significantly increased, the co-benefit of reduction in crop residue burning by rice-husk biochar application and contribution to international efforts of GHG emission mitigation envisage for sustainable carbon neutrality in an agriculture system.…”

Image 2_Effects of phospholipase C inhibition on the regulation of membrane lipid metabolism in maize leaves.jpeg by Yulei Wei (4840461)

“…Under NS treatment, MGDG decreased significantly, while DGDG increased.</p>Discussion<p>Our results indicate that NS treatment may cause damage to photosynthetic membrane lipids, whereas the increase in bilayer lipid DGDG may provide a kind of protection to maintain the stability of chloroplasts. …”

Image 1_Effects of phospholipase C inhibition on the regulation of membrane lipid metabolism in maize leaves.jpeg by Yulei Wei (4840461)

“…Under NS treatment, MGDG decreased significantly, while DGDG increased.</p>Discussion<p>Our results indicate that NS treatment may cause damage to photosynthetic membrane lipids, whereas the increase in bilayer lipid DGDG may provide a kind of protection to maintain the stability of chloroplasts. …”

Table 1_Effects of phospholipase C inhibition on the regulation of membrane lipid metabolism in maize leaves.xlsx by Yulei Wei (4840461)

“…Under NS treatment, MGDG decreased significantly, while DGDG increased.</p>Discussion<p>Our results indicate that NS treatment may cause damage to photosynthetic membrane lipids, whereas the increase in bilayer lipid DGDG may provide a kind of protection to maintain the stability of chloroplasts. …”