<b>Nest mass in forest tits </b><b><i>Paridae</i></b><b> </b><b>increases with elevation and decreasing body mass, promoting reproductive success</b> by Clara Wild (19246606)

“…We found that nest mass increased by ~ 60% along the elevational gradient, but the effect of canopy openness on nest mass was not significant, while nest mass decreased along the ranked species from the smallest <i>Periparus ater</i> to the medium-sized <i>Cyanistes caeruleus</i> and the largest <i>Parus major</i>. …”

Distribution of final population size (A) and mean change in mean MSI over time (B) over 100 simulations for each parameter set shown in Table 3 in the absence of weevils (left) an... by Alexandra M. Campbell (3284094)

Histograms of (A) distance measured in meters to nearest neighboring tree given bin widths of 2 m (<i>n</i> = 44), and (B) basal areas of all sampled trees (<i>n</i> = 58; bin widt... by Alexandra M. Campbell (3284094)

Loss of ECRG4 expression decreases neutrophil mobilization from bone marrow reserves. by Katie D. Pool (20141584)

Subjects:

Biases in larger populations. by Sander W. Keemink (21253563)

“…<p>(<b>A</b>) Maximum absolute bias vs the number of neurons in the population for the Bayesian decoder. …”

Tissue, days post-infection (dpi) and the top 10 most significant genes with increased and decreased expression with valid gene symbols for the response contrasts. by Gillian P. McHugo (8965919)

The distribution of <i>Giardia duodenalis</i> assemblages in domestic and wild populations of nonhuman mammalian species with a larger number of isolates. by Kareem Hatam-Nahavandi (7384790)

Each square gives extinction probability p (AB) or median population change d (CD) for 100 simulations at . by Alexandra M. Campbell (3284094)

<b>Supporting data for manuscript</b> "<b>Voluntary locomotion induces an early and remote hemodynamic decrease in the large cerebral veins</b>" by Kira Shaw (18796168)

The introduction of mutualisms into assembled communities increases their connectance and complexity while decreasing their richness. by Gui Araujo (22170819)

“…When they stop being introduced in further assembly events (i.e. introduced species do not carry any mutualistic interactions), their proportion slowly decreases with successive invasions. (B) Even though higher proportions of mutualism promote higher richness, introducing this type of interaction into already assembled large communities promotes a sudden drop in richness, while stopping mutualism promotes a slight boost in richness increase. …”

Domain organization of human αB-crystallin protein. by Aref Baharvand (21713886)

Chaperone activity and cytoprotective effects of the αB-crystallin proteins. by Aref Baharvand (21713886)

Chemical, thermal, and proteolytic stability of αB-crystallin proteins. by Aref Baharvand (21713886)

GI-1d-a: Comparison of estimates of people for dataset A (left bar) and B (right bar) per region. The largest discrepancies occur in areas of NE, SE and SW Germany and adjacent reg... by Isabell Schmidt (6331013)

Thermodynamic parameters of αB-crystallin protein samples determined through DSC analysis. by Aref Baharvand (21713886)

Supporting data for the paper "<b>The physiological cost of being hot: high thermal stress and disturbance decrease energy reserves in dragonflies in the wild</b>" by Alex Córdoba-Aguilar (10011050)

Temperature-dependent hydrophobic surface exposure of the αB-crystallin proteins assessed by ANS fluorescence. by Aref Baharvand (21713886)

Fluorescence analysis of wild-type and p.R163C αB-crystallin proteins. by Aref Baharvand (21713886)

Altered structure and function of human αB-crystallin due to the p.R163C mutation. by Aref Baharvand (21713886)

“…This mutant protein tends to form larger oligomers than its wild-type counterpart. Although it exhibits decreased chemical and thermal stability, it demonstrates greater proteolytic stability and shows an increased tendency for fibrillation under thermochemical stress conditions. …”

Spectroscopic characterization of wild-type and p.R163C αB-crystallin: CD, FTIR and Raman analysis. by Aref Baharvand (21713886)