Table 1_Lignocellulose adaptation drives polysaccharide biosynthesis in Tremella fuciformis: metabolomic and proteomic insights into CAZyme regulation.xls by Yingyin Xu (10507772)

“…The polysaccharide content of T. fuciformis grown on a Cyclobalanopsis substrate (TY3) was significantly higher than those grown on a mixed substrate (TF1) made of wheat bran and cottonseed hull.…”

Table 3_Lignocellulose adaptation drives polysaccharide biosynthesis in Tremella fuciformis: metabolomic and proteomic insights into CAZyme regulation.docx by Yingyin Xu (10507772)

“…The polysaccharide content of T. fuciformis grown on a Cyclobalanopsis substrate (TY3) was significantly higher than those grown on a mixed substrate (TF1) made of wheat bran and cottonseed hull.…”

Table 4_Lignocellulose adaptation drives polysaccharide biosynthesis in Tremella fuciformis: metabolomic and proteomic insights into CAZyme regulation.xlsx by Yingyin Xu (10507772)

“…The polysaccharide content of T. fuciformis grown on a Cyclobalanopsis substrate (TY3) was significantly higher than those grown on a mixed substrate (TF1) made of wheat bran and cottonseed hull.…”

Table 2_Lignocellulose adaptation drives polysaccharide biosynthesis in Tremella fuciformis: metabolomic and proteomic insights into CAZyme regulation.xls by Yingyin Xu (10507772)

“…The polysaccharide content of T. fuciformis grown on a Cyclobalanopsis substrate (TY3) was significantly higher than those grown on a mixed substrate (TF1) made of wheat bran and cottonseed hull.…”

Table 5_Lignocellulose adaptation drives polysaccharide biosynthesis in Tremella fuciformis: metabolomic and proteomic insights into CAZyme regulation.docx by Yingyin Xu (10507772)

“…The polysaccharide content of T. fuciformis grown on a Cyclobalanopsis substrate (TY3) was significantly higher than those grown on a mixed substrate (TF1) made of wheat bran and cottonseed hull.…”

Image 1_Lignocellulose adaptation drives polysaccharide biosynthesis in Tremella fuciformis: metabolomic and proteomic insights into CAZyme regulation.tif by Yingyin Xu (10507772)

“…The polysaccharide content of T. fuciformis grown on a Cyclobalanopsis substrate (TY3) was significantly higher than those grown on a mixed substrate (TF1) made of wheat bran and cottonseed hull.…”

Table 6_Lignocellulose adaptation drives polysaccharide biosynthesis in Tremella fuciformis: metabolomic and proteomic insights into CAZyme regulation.xls by Yingyin Xu (10507772)

“…The polysaccharide content of T. fuciformis grown on a Cyclobalanopsis substrate (TY3) was significantly higher than those grown on a mixed substrate (TF1) made of wheat bran and cottonseed hull.…”

Figure 4 from Claudin-4 Modulates Autophagy via SLC1A5/LAT1 as a Mechanism to Regulate Micronuclei by Fabian R. Villagomez (18098633)

“…<p>Correlation of amino acids transport with the clinical significance of claudin-4 in ovarian cancer. Reported proteins interacting with claudin-4 in HGSOC cells were employed to construct PPN, aiming to identify key elements and cellular functions associated with the clinical significance of claudin-4 in HGSOC tumors. …”

Table 3_Pediococcus pentosaceus JS35 improved flavor, metabolic profile of fermentation supernatant of mulberry leaf powder and increased its antioxidant capacity.xlsx by Caiyan Meng (20821640)

“…Furthermore, the fermented supernatant supplementation significantly prolonged the lifespan of Caenorhabditis elegans. …”

Table 2_Pediococcus pentosaceus JS35 improved flavor, metabolic profile of fermentation supernatant of mulberry leaf powder and increased its antioxidant capacity.xlsx by Caiyan Meng (20821640)

“…Furthermore, the fermented supernatant supplementation significantly prolonged the lifespan of Caenorhabditis elegans. …”

Table 1_Pediococcus pentosaceus JS35 improved flavor, metabolic profile of fermentation supernatant of mulberry leaf powder and increased its antioxidant capacity.docx by Caiyan Meng (20821640)

“…Furthermore, the fermented supernatant supplementation significantly prolonged the lifespan of Caenorhabditis elegans. …”

Table 1_Transcriptome analysis reveals regulatory mechanism of methyl jasmonate-induced monoterpenoid biosynthesis in Mentha arvensis L..xlsx by Tingting Huang (496866)

“…However, L-menthol content decreased slightly by 7.90% under 5 mM MJ treatment. …”

Data Sheet 2_Transcriptome analysis reveals regulatory mechanism of methyl jasmonate-induced monoterpenoid biosynthesis in Mentha arvensis L..pdf by Tingting Huang (496866)

“…However, L-menthol content decreased slightly by 7.90% under 5 mM MJ treatment. …”

Data Sheet 1_Biochar and Bacillus subtilis co-drive dryland soil microbial community and enzyme responses.doc by Tao Zheng (146941)

“…Meanwhile, except for the YJ treatment, the richness of the fungal community decreased, while the diversity index increased. The experimental results showed that the application of rapeseed straw biochar or the compound microbial inoculant alone significantly increased soil urease activity, reaching 40.34 µg of NH⁺₄-N g⁻¹ of soil h⁻¹ and 40.29 µg of NH⁺₄-N g⁻¹ of soil h⁻¹ at the end of the incubation period, respectively.…”

Data Sheet 1_Transcriptome analysis reveals regulatory mechanism of methyl jasmonate-induced monoterpenoid biosynthesis in Mentha arvensis L..pdf by Tingting Huang (496866)

“…However, L-menthol content decreased slightly by 7.90% under 5 mM MJ treatment. …”

Data Sheet 4_Transcriptome analysis reveals regulatory mechanism of methyl jasmonate-induced monoterpenoid biosynthesis in Mentha arvensis L..pdf by Tingting Huang (496866)

“…However, L-menthol content decreased slightly by 7.90% under 5 mM MJ treatment. …”

Data Sheet 5_Transcriptome analysis reveals regulatory mechanism of methyl jasmonate-induced monoterpenoid biosynthesis in Mentha arvensis L..pdf by Tingting Huang (496866)

“…However, L-menthol content decreased slightly by 7.90% under 5 mM MJ treatment. …”

Data Sheet 3_Transcriptome analysis reveals regulatory mechanism of methyl jasmonate-induced monoterpenoid biosynthesis in Mentha arvensis L..pdf by Tingting Huang (496866)

“…However, L-menthol content decreased slightly by 7.90% under 5 mM MJ treatment. …”

Data Sheet 6_Transcriptome analysis reveals regulatory mechanism of methyl jasmonate-induced monoterpenoid biosynthesis in Mentha arvensis L..pdf by Tingting Huang (496866)

“…However, L-menthol content decreased slightly by 7.90% under 5 mM MJ treatment. …”

Data Sheet 1_Wilt disease reshapes rhizosphere microbiota in small yellow ginger soils.docx by Qing Sun (492552)

“…</p>Results<p>Ginger wilt disease significantly altered the rhizosphere soil bacterial community structure and composition: the relative abundance of Proteobacteria increased significantly, primarily due to the enrichment of the genus Ralstonia; conversely, the relative abundance of Acidobacteriota, Firmicutes, and Chloroflexi significantly decreased. …”