COTS strategic management conceptual framework. by Samuel A. Matthews (18437138)

Subjects:

Relative coral cover change time series with outlier reefs. by Samuel A. Matthews (18437138)

Subjects:

Sector-wide outbreak definitions and non-outbreak populations. by Samuel A. Matthews (18437138)

Subjects:

Relative coral cover change during the 4^th outbreak. by Samuel A. Matthews (18437138)

Subjects:

Model outputs comparing outcomes from the 3^rd and 4^th COTS outbreaks. by Samuel A. Matthews (18437138)

Subjects:

COTS outbreaks, spatial extent and management action. by Samuel A. Matthews (18437138)

Subjects:

Disturbance regimes of the GBR by sector. by Samuel A. Matthews (18437138)

Subjects:

COTS Management on the GBR. by Samuel A. Matthews (18437138)

Subjects:

Annual coral cover change at varying intensities of COTS control. by Samuel A. Matthews (18437138)

Subjects:

DataSheet_1_Soy Isoflavones Accelerate Glial Cell Migration via GPER-Mediated Signal Transduction Pathway.pdf by Winda Ariyani (9598571)

“…These findings indicate that soybean isoflavones exert their action via the GPER to activate the PI3K/FAK/Akt/RhoA/Rac1/Cdc42 signaling pathway, resulting in increased glial cell migration. …”

Solid-State Encapsulation of Urea via Mechanochemistry-Driven Engineering of Metal–Phenolic Networks by Omid Mazaheri (11746394)

Subjects:

Solid-State Encapsulation of Urea via Mechanochemistry-Driven Engineering of Metal–Phenolic Networks by Omid Mazaheri (11746394)

Subjects:

Data Sheet 1_An integrative analysis of ASCL1 in breast cancer and inhibition of ASCL1 increases paclitaxel sensitivity by activating ferroptosis via the CREB1/GPX4 axis.docx by Xiaolu Yang (285041)

“…In summary, inhibition of ASCL1 increases paclitaxel sensitivity by activating ferroptosis via the CREB1/GPX4 axis.…”

Two-Dimensional Atomically Thin Titanium Nitride via Topochemical Conversion by Shan Lu (50076)

“…Here, 2D titanium nitride with a large area was prepared <i>via in situ</i> topochemical conversion of the titanate monolayer. …”

Two-Dimensional Atomically Thin Titanium Nitride via Topochemical Conversion by Shan Lu (50076)

“…Here, 2D titanium nitride with a large area was prepared <i>via in situ</i> topochemical conversion of the titanate monolayer. …”

Data Sheet 1_Patient engagement in radiation oncology: a large retrospective study of survey response dynamics.docx by Bailey A. Loving (20573882)

“…</p>Methods<p>This retrospective study analyzed data from radiation oncology patients at a large multi-site single-institution center from May 2021 to January 2024. …”

Data_Sheet_1_m7G Methyltransferase METTL1 Promotes Post-ischemic Angiogenesis via Promoting VEGFA mRNA Translation.docx by Yongchao Zhao (2450917)

“…Increased METTL1 expression using plasmid transfection in vitro promoted HUVECs proliferation, migration, and tube formation with a global increase of m7G in mRNA. …”

Data_Sheet_1_Decreased Proliferation in the Neurogenic Niche, Disorganized Neuroblast Migration, and Increased Oligodendrogenesis in Adult Netrin-5-Deficient Mice.pdf by Shunsuke Ikegaya (9693881)

“…By contrast, the numbers of EdU-labeled cells in the cortex, basal ganglia/lateral septal nucleus, and corpus callosum/anterior commissure were increased, which largely represented oligodendrocyte lineage cells. …”

Improving Toleration of Volume Expansion of Silicon-Based Anode by Constructing a Flexible Solid-Electrolyte Interface Film via Lithium Difluoro(bisoxalato) Phosphate Electrolyte A... by Jie Wang (16762)

“…The silicon (Si) anode is considered one of the most promising candidates among many novel anode materials in lithium-ion batteries owing to its high theoretical capacity and earth abundancy. Nonetheless, a large volume expansion of Si particles appears with cycling, prompting unceasing breakage/reformation of the solid-electrolyte interface (SEI) and fast capacity degradation in traditional electrolytes. …”

Improving Toleration of Volume Expansion of Silicon-Based Anode by Constructing a Flexible Solid-Electrolyte Interface Film via Lithium Difluoro(bisoxalato) Phosphate Electrolyte A... by Jie Wang (16762)

“…The silicon (Si) anode is considered one of the most promising candidates among many novel anode materials in lithium-ion batteries owing to its high theoretical capacity and earth abundancy. Nonetheless, a large volume expansion of Si particles appears with cycling, prompting unceasing breakage/reformation of the solid-electrolyte interface (SEI) and fast capacity degradation in traditional electrolytes. …”