Src Family Kinases Modulate the Loss of Endothelial Barrier Function in Response to TNF-α: Crosstalk with p38 Signaling by Alejandro P. Adam (55143)

“…Treatment of DN-Csk-expressing cells with 50 pg/ml TNF-α induced a loss of TEER as well as drastic changes in the actin cytoskeleton and focal adhesion proteins. …”

Summary of results based on the results of Mancova’s analysis, highlighting the relationship between the acoustic parameters of the three studied species and the noise gradient rec... by Rogério Ferreira de Oliveira (11133750)

Unimpeded root growth with a Cartesian lattice of cells as initial condition. by Matthias Mimault (14755874)

Fig 2 - by Silvia Ricci (450811)

Rich-get-richer dynamics and linear growth of fluctuations. by Pengsheng Zheng (106555)

Transient dynamics and IFA for piecewise linear external drive. by Natalie Schieferstein (17996519)

“…Right: linearly decreasing drive with slope <i>m</i> = −0.4/ms. …”

Fig 1 - by Seraphine Zeitouny (16954499)

Fig 2 - by Seraphine Zeitouny (16954499)

Multiple C–H Activations of Linear Alkanes by Various (η⁵‑Cyclopentadienyl)W(NO)(CH₂CMe₃)₂ Complexes by Monica V. Shree (4092343)

“…Due to steric factors the most abundant isomer in all cases has a monosubstituted allyl ligand in the endo orientation with the alkyl end distal to the nitrosyl ligand. …”

Horizontal displacement nephogram and vector diagram of typical working conditions, (a)Condition 2, (b)Condition 6, (c)Condition 9, (d)Condition 10. by Xuening Ma (17941131)

Image_1_Direct Current Stimulation Disrupts Endothelial Glycocalyx and Tight Junctions of the Blood-Brain Barrier in vitro.tif by Yifan Xia (11331264)

“…We found disrupted EG and ZO-1 when P to dextran-70k was increased and TEER was decreased by the DCS. To further investigate the cellular signaling mechanism of DCS on the BBB permeability, we pretreated the in vitro BBB with a nitric oxide synthase (NOS) inhibitor, L-NMMA. …”

Image_4_Direct Current Stimulation Disrupts Endothelial Glycocalyx and Tight Junctions of the Blood-Brain Barrier in vitro.tif by Yifan Xia (11331264)

“…We found disrupted EG and ZO-1 when P to dextran-70k was increased and TEER was decreased by the DCS. To further investigate the cellular signaling mechanism of DCS on the BBB permeability, we pretreated the in vitro BBB with a nitric oxide synthase (NOS) inhibitor, L-NMMA. …”

Image_2_Direct Current Stimulation Disrupts Endothelial Glycocalyx and Tight Junctions of the Blood-Brain Barrier in vitro.tif by Yifan Xia (11331264)

“…We found disrupted EG and ZO-1 when P to dextran-70k was increased and TEER was decreased by the DCS. To further investigate the cellular signaling mechanism of DCS on the BBB permeability, we pretreated the in vitro BBB with a nitric oxide synthase (NOS) inhibitor, L-NMMA. …”

Image_3_Direct Current Stimulation Disrupts Endothelial Glycocalyx and Tight Junctions of the Blood-Brain Barrier in vitro.tif by Yifan Xia (11331264)

“…We found disrupted EG and ZO-1 when P to dextran-70k was increased and TEER was decreased by the DCS. To further investigate the cellular signaling mechanism of DCS on the BBB permeability, we pretreated the in vitro BBB with a nitric oxide synthase (NOS) inhibitor, L-NMMA. …”

Data_Sheet_2_Reducing the Number of Individuals to Monitor Shoaling Fish Systems – Application of the Shannon Entropy to Construct a Biological Warning System Model.DOCX by Harkaitz Eguiraun (5183036)

“…Two different experiments were performed: (i) one starting with 50 fish and decreasing to 25, 13, and 1 fish, and (ii) a second experiment starting with one fish, adding one new fish per day during 5 days, ending up with five fish in the tank. …”

Data_Sheet_6_Reducing the Number of Individuals to Monitor Shoaling Fish Systems – Application of the Shannon Entropy to Construct a Biological Warning System Model.DOCX by Harkaitz Eguiraun (5183036)

“…Two different experiments were performed: (i) one starting with 50 fish and decreasing to 25, 13, and 1 fish, and (ii) a second experiment starting with one fish, adding one new fish per day during 5 days, ending up with five fish in the tank. …”

Data_Sheet_8_Reducing the Number of Individuals to Monitor Shoaling Fish Systems – Application of the Shannon Entropy to Construct a Biological Warning System Model.DOCX by Harkaitz Eguiraun (5183036)

“…Two different experiments were performed: (i) one starting with 50 fish and decreasing to 25, 13, and 1 fish, and (ii) a second experiment starting with one fish, adding one new fish per day during 5 days, ending up with five fish in the tank. …”

Data_Sheet_4_Reducing the Number of Individuals to Monitor Shoaling Fish Systems – Application of the Shannon Entropy to Construct a Biological Warning System Model.DOCX by Harkaitz Eguiraun (5183036)

“…Two different experiments were performed: (i) one starting with 50 fish and decreasing to 25, 13, and 1 fish, and (ii) a second experiment starting with one fish, adding one new fish per day during 5 days, ending up with five fish in the tank. …”

Data_Sheet_1_Reducing the Number of Individuals to Monitor Shoaling Fish Systems – Application of the Shannon Entropy to Construct a Biological Warning System Model.DOCX by Harkaitz Eguiraun (5183036)

“…Two different experiments were performed: (i) one starting with 50 fish and decreasing to 25, 13, and 1 fish, and (ii) a second experiment starting with one fish, adding one new fish per day during 5 days, ending up with five fish in the tank. …”

Data_Sheet_3_Reducing the Number of Individuals to Monitor Shoaling Fish Systems – Application of the Shannon Entropy to Construct a Biological Warning System Model.DOCX by Harkaitz Eguiraun (5183036)

“…Two different experiments were performed: (i) one starting with 50 fish and decreasing to 25, 13, and 1 fish, and (ii) a second experiment starting with one fish, adding one new fish per day during 5 days, ending up with five fish in the tank. …”