Homozygous deletion of <i>ERG251</i> leads to downregulation of ergosterol biosynthesis genes and upregulation of alternate sterol biosynthesis genes. by Xin Zhou (54275)

JNJ26993135 + BML-111 decreases permeability and enhances ZO-1 and claudin-1 induced by PAF but does not change TEER. by Kameljit K. Kalsi (16496511)

Increased body weight and decreased expansion of pro-inflammatory CD4+ T-cells from blood in Tg-HD5 rats. by Osiris Marroquin Belaunzaran (224031)

Putative estimates of unidentified sterols. by Xin Zhou (54275)

Top view of the experimental setup. by Muhammad Hammad Bucha (21736111)

“…By increasing the surface roughness of the bluff body, the lock-in region decreases and as a result, the harvested power from that bluff body is reduced. …”

Parameters of energy harvesting. by Muhammad Hammad Bucha (21736111)

“…By increasing the surface roughness of the bluff body, the lock-in region decreases and as a result, the harvested power from that bluff body is reduced. …”

Graph for Max Amplitude/Length at G_y = 0. by Muhammad Hammad Bucha (21736111)

“…By increasing the surface roughness of the bluff body, the lock-in region decreases and as a result, the harvested power from that bluff body is reduced. …”

Graph for maximum Frequency at G_y = 0. by Muhammad Hammad Bucha (21736111)

“…By increasing the surface roughness of the bluff body, the lock-in region decreases and as a result, the harvested power from that bluff body is reduced. …”

Graph for maximum Power at G_y = 0. by Muhammad Hammad Bucha (21736111)

“…By increasing the surface roughness of the bluff body, the lock-in region decreases and as a result, the harvested power from that bluff body is reduced. …”

Summary of experimentation results. by Muhammad Hammad Bucha (21736111)

“…By increasing the surface roughness of the bluff body, the lock-in region decreases and as a result, the harvested power from that bluff body is reduced. …”

Piezoelectric eel. by Muhammad Hammad Bucha (21736111)

“…By increasing the surface roughness of the bluff body, the lock-in region decreases and as a result, the harvested power from that bluff body is reduced. …”

Fig 1 - by Sheona Isobel Shankland (19976311)

Strains used in this study. by Xin Zhou (54275)

“…Here, we found that the ergosterol biosynthesis gene <i>ERG251</i> is a hotspot for point mutations during adaptation to antifungal drug stress within two distinct genetic backgrounds of <i>Candida albicans</i>. …”

Primers used in this study. by Xin Zhou (54275)

“…Here, we found that the ergosterol biosynthesis gene <i>ERG251</i> is a hotspot for point mutations during adaptation to antifungal drug stress within two distinct genetic backgrounds of <i>Candida albicans</i>. …”

<i>ERG251</i> SNPs from all FLC-evolved strains. by Xin Zhou (54275)

“…Here, we found that the ergosterol biosynthesis gene <i>ERG251</i> is a hotspot for point mutations during adaptation to antifungal drug stress within two distinct genetic backgrounds of <i>Candida albicans</i>. …”

Cardiac leiomodin2 binds to the sides of actin filaments. by Dávid Szatmári (4510156)

The pilot-scale tests bench. by Xiaobo Li (118828)

DPF catalyst module. by Xiaobo Li (118828)

DPF module. by Xiaobo Li (118828)

BPT results for DPF with different coating and loading contents. by Xiaobo Li (118828)