Image_5_Exploring the Spatial-Temporal Microbiota of Compound Stomachs in a Pre-weaned Goat Model.TIF by Yu Lei (266919)

“…<p>Ruminant animals possess a characteristic four-compartment stomach (rumen, reticulum, omasum, and abomasum) that is specialized for pre-intestinal digestion of plant materials. …”

Table_4_Exploring the Spatial-Temporal Microbiota of Compound Stomachs in a Pre-weaned Goat Model.XLS by Yu Lei (266919)

“…<p>Ruminant animals possess a characteristic four-compartment stomach (rumen, reticulum, omasum, and abomasum) that is specialized for pre-intestinal digestion of plant materials. …”

Image_4_Exploring the Spatial-Temporal Microbiota of Compound Stomachs in a Pre-weaned Goat Model.TIF by Yu Lei (266919)

“…<p>Ruminant animals possess a characteristic four-compartment stomach (rumen, reticulum, omasum, and abomasum) that is specialized for pre-intestinal digestion of plant materials. …”

Image_2_Exploring the Spatial-Temporal Microbiota of Compound Stomachs in a Pre-weaned Goat Model.TIF by Yu Lei (266919)

“…<p>Ruminant animals possess a characteristic four-compartment stomach (rumen, reticulum, omasum, and abomasum) that is specialized for pre-intestinal digestion of plant materials. …”

Image_7_Exploring the Spatial-Temporal Microbiota of Compound Stomachs in a Pre-weaned Goat Model.TIF by Yu Lei (266919)

“…<p>Ruminant animals possess a characteristic four-compartment stomach (rumen, reticulum, omasum, and abomasum) that is specialized for pre-intestinal digestion of plant materials. …”

Image_6_Exploring the Spatial-Temporal Microbiota of Compound Stomachs in a Pre-weaned Goat Model.TIF by Yu Lei (266919)

“…<p>Ruminant animals possess a characteristic four-compartment stomach (rumen, reticulum, omasum, and abomasum) that is specialized for pre-intestinal digestion of plant materials. …”

Table_2_Exploring the Spatial-Temporal Microbiota of Compound Stomachs in a Pre-weaned Goat Model.XLSX by Yu Lei (266919)

“…<p>Ruminant animals possess a characteristic four-compartment stomach (rumen, reticulum, omasum, and abomasum) that is specialized for pre-intestinal digestion of plant materials. …”

Image_3_Exploring the Spatial-Temporal Microbiota of Compound Stomachs in a Pre-weaned Goat Model.TIF by Yu Lei (266919)

“…<p>Ruminant animals possess a characteristic four-compartment stomach (rumen, reticulum, omasum, and abomasum) that is specialized for pre-intestinal digestion of plant materials. …”

Table_3_Exploring the Spatial-Temporal Microbiota of Compound Stomachs in a Pre-weaned Goat Model.XLS by Yu Lei (266919)

“…<p>Ruminant animals possess a characteristic four-compartment stomach (rumen, reticulum, omasum, and abomasum) that is specialized for pre-intestinal digestion of plant materials. …”

Table_5_Exploring the Spatial-Temporal Microbiota of Compound Stomachs in a Pre-weaned Goat Model.XLS by Yu Lei (266919)

“…<p>Ruminant animals possess a characteristic four-compartment stomach (rumen, reticulum, omasum, and abomasum) that is specialized for pre-intestinal digestion of plant materials. …”

Table_1_Identification of a Fusarium ear rot resistance gene in maize by QTL mapping and RNA sequencing.XLSX by Yusheng Xia (13780501)

“…On the basis of the RNA-seq data, which revealed the genes differentially expressed between the FER-resistant Qi319 and susceptible Ye478, GRMZM2G017792 (MPK3) was preliminarily identified as a candidate gene in the qFER1.03 region. The Pr-CMV-VIGS system was used to decrease the GRMZM2G017792 expression level in CL171 by 34–57%, which led to a significant decrease in FER resistance. …”

The inactivation of <i>Kdm6a</i> in mice had age- and gender-dependent effects on normal hematopoiesis. by Ling Tian (107492)

“…There was a significant decrease in B220⁺ B cells in the PB of KO-F mice. …”

Chemical Discrimination and Aggressiveness via Cuticular Hydrocarbons in a Supercolony-Forming Ant, <em>Formica yessensis</em> by Midori Kidokoro-Kobayashi (124783)

“…</p> <h3>Conclusions/Significance</h3><p>We demonstrate that chemical discrimination between nestmates and non-nestmates in <em>F. yessensis</em> was not clear cut, probably because this species has only subtle intraspecific differences in the CHC pattern that typify within a supercolony. Such an incomplete chemical discrimination via the CHC sensilla is thus an important factor contributing to decreased occurrence of intraspecific aggressive behavior especially within a supercolony.…”

Image_2_A discriminant analysis of plasma metabolomics for the assessment of metabolic responsiveness to red raspberry consumption.JPEG by Valentin Barbe (14829667)

“…Increased 3-ureidopropionate levels were associated with a decrease in the Matsuda index in type 2 responders, suggesting that this metabolite is associated with a decrease in insulin sensitivity for those subjects, whereas the opposite was observed for type 1 responders.…”

Image_1_A discriminant analysis of plasma metabolomics for the assessment of metabolic responsiveness to red raspberry consumption.JPEG by Valentin Barbe (14829667)

“…Increased 3-ureidopropionate levels were associated with a decrease in the Matsuda index in type 2 responders, suggesting that this metabolite is associated with a decrease in insulin sensitivity for those subjects, whereas the opposite was observed for type 1 responders.…”

Image_1_A discriminant analysis of plasma metabolomics for the assessment of metabolic responsiveness to red raspberry consumption.JPEG by Valentin Barbe (14829667)

“…Increased 3-ureidopropionate levels were associated with a decrease in the Matsuda index in type 2 responders, suggesting that this metabolite is associated with a decrease in insulin sensitivity for those subjects, whereas the opposite was observed for type 1 responders.…”

Image_3_A discriminant analysis of plasma metabolomics for the assessment of metabolic responsiveness to red raspberry consumption.JPEG by Valentin Barbe (14829667)

“…Increased 3-ureidopropionate levels were associated with a decrease in the Matsuda index in type 2 responders, suggesting that this metabolite is associated with a decrease in insulin sensitivity for those subjects, whereas the opposite was observed for type 1 responders.…”

Data_Sheet_1_Topological regularization of networks in temporal lobe epilepsy: a structural MRI study.docx by Yini Chen (5892689)

“…Locally, TLE patients showed a decrease in nodal betweenness and degree in the left lingual gyrus, right middle occipital gyrus and right thalamus compared with the NC group (p < 0.05, uncorrected). …”

Data_Sheet_1_Topological regularization of networks in temporal lobe epilepsy: a structural MRI study.docx by Yini Chen (5892689)

“…Locally, TLE patients showed a decrease in nodal betweenness and degree in the left lingual gyrus, right middle occipital gyrus and right thalamus compared with the NC group (p < 0.05, uncorrected). …”

Image_3_A discriminant analysis of plasma metabolomics for the assessment of metabolic responsiveness to red raspberry consumption.JPEG by Valentin Barbe (14829667)

“…Increased 3-ureidopropionate levels were associated with a decrease in the Matsuda index in type 2 responders, suggesting that this metabolite is associated with a decrease in insulin sensitivity for those subjects, whereas the opposite was observed for type 1 responders.…”