Serine increases <i>C</i>. <i>elegans</i> lifespan in a methionine cycle-dependent fashion. by Yasmine J. Liu (6433946)

CD8+ T-cells percentage in PBMCs and purity after isolation and activation. by Eiman Abdo (20642254)

Subjects:

Fig 8 - by Karin Pernold (6293960)

<b>Additive effects of </b><b>multiple global change drivers on terrestrial nitrogen cycling</b><b> worldwide</b> by Ding (16636953)

“…<p dir="ltr">We found that the interactions of multiple GCFs were commonly additive (66.2%–83.3%), but both synergistic (10.5%–15.1%) and antagonistic (2.8%–18.9%) effects were also observed.</p><p dir="ltr">Using Web of Science, Google Scholar and the China National Knowledge Infrastructure, we collected a total of 1722 observations from 108 peer-reviewed articles that reported changes in N cycling under experimental manipulations of warming (W) and other global change drivers, including increased precipitation (IP), decreased precipitation (DP), nitrogen addition (N), and elevated CO2 concentration (eCO2).…”

miR-21 can promote cell cycle progression and induce cisplatin resistance. by Shuyan Sheng (12098234)

Subjects:

Highest expressed genes with ≥ 16-fold increased expression in gametocytes over schizonts. by Gabriel W. Rangel (8520279)

Table_1_Limited Impacts of Cover Cropping on Soil N-Cycling Microbial Communities of Long-Term Corn Monocultures.xlsx by Nakian Kim (11779898)

“…CC increased the abundance of nirK by 1.5 times when fertilized. …”

Table_8_Weight cycling induces innate immune memory in adipose tissue macrophages.csv by Heather L. Caslin (11574286)

Image_8_Sex differences in cognitive flexibility are driven by the estrous cycle and stress-dependent.tiff by Andrew T. Gargiulo (13196916)

Newly born mesenchymal cells have increased probability of dermal condensate entry. by Jon Riddell (4240438)

Hematological abnormalities with in the treatment cycle in breast cancer patients at UoG-CSH, Northwest Ethiopia, 2021. by Melak Aynalem (6828893)

Top 10 important features with mean decrease in Gini index (A) and distribution of minimal depth (B). by Hyun Kyung Lim (9547300)

Cellular Ca cycling and contractions after long-term training. by Karin P. Hammer (10924846)

Cell cycle dependent accumulation of H3pS10 at the TR. by Asim Asghar (22075975)

Individual progesterone levels measured in Experiment 1 (Days 2, 8, 14 and 22 of the estrous cycle) and Experiment 2 (Days 0 and 3) in YF and OF. by Marine Denis (22319979)

Results on the trimmed datasets with a decreasing number of papers per author available for training and testing. by Leonard Bauersfeld (16475015)

Synergistic Effect of Polyurethane in Polyurethane–Poly(vinylidene fluoride) Nanofiber-Based Stretchable Piezoelectric Nanogenerators (S-PENGs) by Gurneet Kaur (12752605)

“…For developing a stretchable piezoelectric nanogenerator (S-PENG) device, stretchable electrodes with a 4.5 gauge factor at 100% strain were fabricated by spin-coating of poly­(3,4-ethylenedioxythiophene) poly­(styrene sulfonate) (PEDOT:PSS):graphene nanoplates on a prestrained PU substrate. S-PENG produced 3.8 V, 0.65 μA, and 0.48 μW/cm² peak open-circuit voltage, short-circuit current, and power density during cyclic deformation, respectively, with electrical and mechanical stability for at least 2000 cycles. …”

Synergistic Effect of Polyurethane in Polyurethane–Poly(vinylidene fluoride) Nanofiber-Based Stretchable Piezoelectric Nanogenerators (S-PENGs) by Gurneet Kaur (12752605)

“…For developing a stretchable piezoelectric nanogenerator (S-PENG) device, stretchable electrodes with a 4.5 gauge factor at 100% strain were fabricated by spin-coating of poly­(3,4-ethylenedioxythiophene) poly­(styrene sulfonate) (PEDOT:PSS):graphene nanoplates on a prestrained PU substrate. S-PENG produced 3.8 V, 0.65 μA, and 0.48 μW/cm² peak open-circuit voltage, short-circuit current, and power density during cyclic deformation, respectively, with electrical and mechanical stability for at least 2000 cycles. …”

Synergistic Effect of Polyurethane in Polyurethane–Poly(vinylidene fluoride) Nanofiber-Based Stretchable Piezoelectric Nanogenerators (S-PENGs) by Gurneet Kaur (12752605)

“…For developing a stretchable piezoelectric nanogenerator (S-PENG) device, stretchable electrodes with a 4.5 gauge factor at 100% strain were fabricated by spin-coating of poly­(3,4-ethylenedioxythiophene) poly­(styrene sulfonate) (PEDOT:PSS):graphene nanoplates on a prestrained PU substrate. S-PENG produced 3.8 V, 0.65 μA, and 0.48 μW/cm² peak open-circuit voltage, short-circuit current, and power density during cyclic deformation, respectively, with electrical and mechanical stability for at least 2000 cycles. …”

Synergistic Effect of Polyurethane in Polyurethane–Poly(vinylidene fluoride) Nanofiber-Based Stretchable Piezoelectric Nanogenerators (S-PENGs) by Gurneet Kaur (12752605)

“…For developing a stretchable piezoelectric nanogenerator (S-PENG) device, stretchable electrodes with a 4.5 gauge factor at 100% strain were fabricated by spin-coating of poly­(3,4-ethylenedioxythiophene) poly­(styrene sulfonate) (PEDOT:PSS):graphene nanoplates on a prestrained PU substrate. S-PENG produced 3.8 V, 0.65 μA, and 0.48 μW/cm² peak open-circuit voltage, short-circuit current, and power density during cyclic deformation, respectively, with electrical and mechanical stability for at least 2000 cycles. …”