Fig 3 - by Calvin P. Philp (12095878)

Subjects:

Examples of DWAs that are predicted to increase their ranks in 9 years in particular fields. by Hung Chau (14797159)

A model for elucidating the transovarial transmission of <i>N</i>. <i>bombycis</i>. by Chunxia Wang (766713)

Fibγ^Δ5 mice display decreased survival following <i>S. aureus</i> peritonitis. by Oscar Negrón (11965511)

f/I curves for model network in Fig 6A2 and 6B2 with gap junctions intact. by Guillem Via (14204815)

Image_1_Novel Mutant Alleles Reveal a Role of the Extra-Large G Protein in Rice Grain Filling, Panicle Architecture, Plant Growth, and Disease Resistance.TIF by Akshaya K. Biswal (11893829)

“…We hypothesized that, besides RGA1, three atypical, extra-large GTP-binding protein (XLG) subunits also regulate panicle architecture, plant growth, development, grain weight, and disease resistance. …”

Image_3_Novel Mutant Alleles Reveal a Role of the Extra-Large G Protein in Rice Grain Filling, Panicle Architecture, Plant Growth, and Disease Resistance.TIF by Akshaya K. Biswal (11893829)

“…We hypothesized that, besides RGA1, three atypical, extra-large GTP-binding protein (XLG) subunits also regulate panicle architecture, plant growth, development, grain weight, and disease resistance. …”

Table_1_Novel Mutant Alleles Reveal a Role of the Extra-Large G Protein in Rice Grain Filling, Panicle Architecture, Plant Growth, and Disease Resistance.docx by Akshaya K. Biswal (11893829)

“…We hypothesized that, besides RGA1, three atypical, extra-large GTP-binding protein (XLG) subunits also regulate panicle architecture, plant growth, development, grain weight, and disease resistance. …”

Table_4_Novel Mutant Alleles Reveal a Role of the Extra-Large G Protein in Rice Grain Filling, Panicle Architecture, Plant Growth, and Disease Resistance.DOCX by Akshaya K. Biswal (11893829)

“…We hypothesized that, besides RGA1, three atypical, extra-large GTP-binding protein (XLG) subunits also regulate panicle architecture, plant growth, development, grain weight, and disease resistance. …”

Image_2_Novel Mutant Alleles Reveal a Role of the Extra-Large G Protein in Rice Grain Filling, Panicle Architecture, Plant Growth, and Disease Resistance.TIF by Akshaya K. Biswal (11893829)

“…We hypothesized that, besides RGA1, three atypical, extra-large GTP-binding protein (XLG) subunits also regulate panicle architecture, plant growth, development, grain weight, and disease resistance. …”

Image_4_Novel Mutant Alleles Reveal a Role of the Extra-Large G Protein in Rice Grain Filling, Panicle Architecture, Plant Growth, and Disease Resistance.TIF by Akshaya K. Biswal (11893829)

“…We hypothesized that, besides RGA1, three atypical, extra-large GTP-binding protein (XLG) subunits also regulate panicle architecture, plant growth, development, grain weight, and disease resistance. …”

Table_3_Novel Mutant Alleles Reveal a Role of the Extra-Large G Protein in Rice Grain Filling, Panicle Architecture, Plant Growth, and Disease Resistance.docx by Akshaya K. Biswal (11893829)

“…We hypothesized that, besides RGA1, three atypical, extra-large GTP-binding protein (XLG) subunits also regulate panicle architecture, plant growth, development, grain weight, and disease resistance. …”

Table_2_Novel Mutant Alleles Reveal a Role of the Extra-Large G Protein in Rice Grain Filling, Panicle Architecture, Plant Growth, and Disease Resistance.DOCX by Akshaya K. Biswal (11893829)

“…We hypothesized that, besides RGA1, three atypical, extra-large GTP-binding protein (XLG) subunits also regulate panicle architecture, plant growth, development, grain weight, and disease resistance. …”

TPM1, TPM4, PCP4 and NPY are identified as having significantly increased abundance in the hippocampus after LDR exposure. by Diego Iacono (10785756)

Subjects:

Data Sheet 1_Increased risk of deep vein thrombosis, pulmonary embolism, and all-cause mortality in chronic venous disorder: a large-scale retrospective cohort study.docx by Eva Lotta Moderegger (22389298)

“…Conversely, the risk of SVT increased (1.8, 1.6–2.0).</p>Discussion<p>Independently of disease severity, CVD entails an increased risk for venous thromboembolic events and all-cause mortality. …”

Metabolic biomass of Norwegian large herbivores and carnivores in time and space by James Speed (5125001)

“…Spatio‐temporal variation in large herbivore pressure in Norway during 1949‐1999: has decreased grazing by livestock been countered by increased browsing by cervids?. …”

<i>PsnWRKY95</i> transgenic plants selection and functional analysis of <i>PsnWRKY95</i> in cadmium resistance. by Yuzhao Ma (12840632)

Subjects:

Decrease in accelerometer assessed physical activity during the first-year post-myocardial infarction: a prospective cohort study by Amanda Lönn (11583010)

“…Secondly, to explore associations between changes in physical activity variables with blood pressure and lipid levels.</p> <p>A longitudinal study in 2017-2023. Physical activity variables were assessed <i>via</i> accelerometers at two- and twelve months post-MI. …”

Impact of large choroidal vessels (LCV) and topographical orientation on percentage of flow deficit (FD%) values. by Valentin Hacker (9956024)

Large and Tunable Wavelength Blue Shifts in Luminescent Piezochromism of Cu(I) Complexes via a Guest Encapsulation Strategy by Wan-Tao Chen (330486)

“…Materials that display blue-shifted and enhanced luminescence in response to mechanical stimuli are limited, and the related mechanism is difficult to investigate due to the unclear structural information. In this work, a series of Cu­(I) complexes that display blue-shifted and enhanced luminescence under pressure are designed via a guest encapsulation strategy. …”