Gene expression of 5-HT transporter (5-HTT), 5-HT_1A receptor (5-HT_1AR) and tryptophan hydroxylase-2 (TPH2) in the raphe. by Thibault Renoir (348572)

“…<p>Measuring mRNA levels of several genes encoding proteins that regulate 5-HT homeostasis, we found significant genotype-sex interactions for both mRNA levels of (A) 5-HTT and (B) TPH2 but not for (C) 5-HT_1AR gene expression. …”

Fig 5 - by Liza Teresa Rozario (10968713)

Dominant negative Rac1 and Rac1 siRNA both decrease H₂S-promoted cell migration and tube formation in HUVECs. by Li-Jia Zhang (308411)

Increased oxidative stress, viral load and decreased survivability of N2a following RIG-I ablation. by Arshed Nazmi (215284)

“…The mean fluorescence intensities obtained from each group are depicted in the figure. (1-Unstained, 2-Mock-infected; 3-JEV-infected, 4-JEV+Sc-MO, 5-JEV+rMO) (A). Immunoblot analysis to detect JEV NS-5 expression also showed enhancement in JEV+rMO when compared to either JEV-infected or JEV+ScMO groups (B&C). …”

CPGF NPs decrease the growth kinetics of breast cancer cells. by Kirtee D. Wani (636463)

Changes in the normalized volume <i>v</i> = V/V₀ of HEK293 cells in response to sequential application of sucrose and <i>myo</i>-inositol solutions of the same osmolalit... by Joseph Andronic (700242)

“…The rate of secondary swelling (Δ<i>v</i>/Δ<i>t</i>_ino, <i>red fitted lines</i>) decreased with time during and after RVD (7–35 min). …”

Supplementary Material for: MNSFβ Promotes the Proliferation and Migration of Human Extravillous Trophoblast Cells and the Villus Expression Level of MNSFβ Is Decreased in Recurren... by Wang N. (3112722)

“…The downregulated MNSFβ expression significantly attenuated the proliferation, migration, and invasion abilities of HTR8/SVneo cells, accompanied with the obviously decreased expression levels of P53, RhoA, Bcl-2, Bax, and MMP-9, whereas the upregulated MNSFβ expression in HTR8/SVneo cells represented the inverse effects. …”

Decrease of Paneth cells and goblet cells in small intestine upon deletion of TNKSs. by Pan Ye (2902336)

mFIZZ1′ and mFIZZ1 decreased the IL-13 and IL-5 secretion of splenocytes. by Wael Gad (285901)

“…Recombinant mFIZZ1′ and mFIZZ1 expressed with or without hQSOX1b were used at 200 ng/ml. rRa is the bacterial recombinant FIZZ1 (200 ng/ml) from (Peprotech) and PBS is the control. (<b>A</b>) Recombinant mFIZZ1′ and mFIZZ1 co-expressed with hQSOX1b significantly decreased the IL-5 secretion compared to the proteins expressed alone. …”

MLN4924-resistant K562 (R-K562_MLN) leukemia cells show decreased sensitivity to MLN4924, but not all chemotherapeutics. by G. Wei Xu (545673)

Meta data to S1 Fig. by Xiaowen Jiang (8291814)

“…Thus, we provide a mechanism for how retinoic acid via <i>rcan2</i> can regulate K⁺-channel activity to scale a vertebrate appendage via intercellular Ca²⁺ signaling.…”

Meta data to Fig 1. by Xiaowen Jiang (8291814)

“…Thus, we provide a mechanism for how retinoic acid via <i>rcan2</i> can regulate K⁺-channel activity to scale a vertebrate appendage via intercellular Ca²⁺ signaling.…”

Meta data to S9 Fig. by Xiaowen Jiang (8291814)

“…Thus, we provide a mechanism for how retinoic acid via <i>rcan2</i> can regulate K⁺-channel activity to scale a vertebrate appendage via intercellular Ca²⁺ signaling.…”

Materials table. by Xiaowen Jiang (8291814)

“…Thus, we provide a mechanism for how retinoic acid via <i>rcan2</i> can regulate K⁺-channel activity to scale a vertebrate appendage via intercellular Ca²⁺ signaling.…”

Meta data to S8 Fig. by Xiaowen Jiang (8291814)

“…Thus, we provide a mechanism for how retinoic acid via <i>rcan2</i> can regulate K⁺-channel activity to scale a vertebrate appendage via intercellular Ca²⁺ signaling.…”

Meta data to Fig 3. by Xiaowen Jiang (8291814)

“…Thus, we provide a mechanism for how retinoic acid via <i>rcan2</i> can regulate K⁺-channel activity to scale a vertebrate appendage via intercellular Ca²⁺ signaling.…”

Meta data to Fig 7. by Xiaowen Jiang (8291814)

“…Thus, we provide a mechanism for how retinoic acid via <i>rcan2</i> can regulate K⁺-channel activity to scale a vertebrate appendage via intercellular Ca²⁺ signaling.…”

Meta data to S3 Fig. by Xiaowen Jiang (8291814)

“…Thus, we provide a mechanism for how retinoic acid via <i>rcan2</i> can regulate K⁺-channel activity to scale a vertebrate appendage via intercellular Ca²⁺ signaling.…”

Meta data to S4 Fig. by Xiaowen Jiang (8291814)

“…Thus, we provide a mechanism for how retinoic acid via <i>rcan2</i> can regulate K⁺-channel activity to scale a vertebrate appendage via intercellular Ca²⁺ signaling.…”

Meta data to Fig 4. by Xiaowen Jiang (8291814)

“…Thus, we provide a mechanism for how retinoic acid via <i>rcan2</i> can regulate K⁺-channel activity to scale a vertebrate appendage via intercellular Ca²⁺ signaling.…”