Data Sheet 1_Emotional prompting amplifies disinformation generation in AI large language models.docx by Rasita Vinay (21006911)

“…Introduction<p>The emergence of artificial intelligence (AI) large language models (LLMs), which can produce text that closely resembles human-written content, presents both opportunities and risks. …”

The PRAME-AS knockout cells showed a decrease in migration, proliferation, stemness, and viability. by Zahra Hosseininia (22265113)

Data from: Colony losses of stingless bees increase in agricultural areas, but decrease in forested areas by Malena Sibaja Leyton (18400983)

“…</p><p><br></p><p dir="ltr">The data are related to the scientific paper “Sibaja Leyton M. et al., (under review) Colony losses of stingless bees increase in agricultural areas, but decrease in forested areas”.</p><p dir="ltr">Data are available as a csv file titled:</p><p dir="ltr">"Sibaja_Leyton_et_al_Dataset_Stingless_Bee_Colony_Losses_in_Latin_America.csv".…”

The capture efficiency of BioMagnetic solutions FerroSelect in PBS/1% BSA and whole blood showed a decrease in capture efficiency when moving to whole blood. by Peng Liu (120506)

Feasibility of AI-powered assessment scoring: Can large language models replace human raters? by Michael Jaworski III (22156096)

“…CVLT-II ICC = 0.992; SDMT ICC = 1.000; BVMT-R ICC = 0.822–853), with minimal scoring discrepancies per test (CVLT = 1.05, SDMT = 0.05, BVMT-<i>R</i> = 1.05–1.19). …”

GPT-4 results in decreased error rate for all tasks with increasing complexity when compared to GPT-3.5-turbo. by Jacqueline A. Jansen (14894276)

Data of the article "The physiological cost of being hot: High thermal stress and disturbance decrease energy reserves in dragonflies in the wild" by Eduardo Ulises Castillo-Pérez (20869904)

“…These changes can strongly affect insects, particularly those experiencing high thermal stress (i.e, large differences between body and environmental temperature), as prolonged exposure to elevated temperatures can reduce their energetic reserves due to increased metabolic demands and physiological stress. …”

Large teeth and highly protrusible jaws are evolutionarily incompatible. by Nick Peoples (21593888)

Pseudocode of the simulation program (see Supplementary Materials for <i>R</i> codes S1 File). by Farrokh Habibzadeh (12256529)

Synchronization of the vegetative cycle and SP formation in <i>Eudorina.</i> by Hiroko Kawai-Toyooka (382362)

Presentation 1_Tracking priming-induced language recovery in aphasia with pre-trained language models.zip by Yan Cong (1491478)

Data Sheet 1_Tracking priming-induced language recovery in aphasia with pre-trained language models.zip by Yan Cong (1491478)

Extreme morphological adaptations to accommodate large teeth in fish jaws. by Nick Peoples (21593888)

Evolutionary relationships between tooth size and jaw protrusion. by Nick Peoples (21593888)

Pharmacological treatment does not influence endothelial cell identity or cell size but decreases the nuclear size. by Katrin Kalies (13217811)

Time course of CM-induced SP formation efficiency during colony development of <i>Eudorina.</i> by Hiroko Kawai-Toyooka (382362)

The diversity of tooth sizes and feeding kinematics across ray-finned fishes. by Nick Peoples (21593888)

Increases in ground electrode size are associated with decreases in electric field. by Timothy Kim (3699391)

A bar graph showing the overall colony loss rates and 95% confidence intervals for the 1,786 beekeepers interviewed across the nine Sub-Saharan African countries. by Beatrice T. Nganso (4114768)

<b>The loss of insulin-positive cell clusters precedes the decrease of islet frequency and beta cell area in type 1 diabetes</b> by Denise M. Drotar (21679539)

“…Insulin-positive (INS+) single cells (≤10µm), cell clusters (>10 to <35µm), small- and medium-sized islets (35-100µm and 100-200µm) were significantly lost at type 1 diabetes onset, while large INS+ islets (>200µm) were preserved. …”