The antiviral effect of <i>Mmp3</i> against DENV. by Xiangyang Zuo (506853)

“…D) The titer of infectious DENV in cell supernatants 24 hrs post infection, as measured by TCID₅₀ assay. E) The viral burdens in <i>Mmp3</i> overexpressed cells were decreased comparing with that in control cells. …”

Survival and engraftment of transplanted ADSCs. by Jianfeng Liu (122580)

“…<p>(A) Representative images of in vivo BLI at days 1, 7, 14 and 28 (n = 12/group). …”

Effective recovery time and synaptic integration time during scratching. by Rune W. Berg (54068)

“…<p>Peri-spike V_m distribution in quiescence (A) (n = 50) and during scratching (B) (n = 29). …”

Summary of collateral dependent blood flow measurements made using manual and automated inflation protocols for before and after transient repetitive myocardia ischemia (RI). by Silas J. Leavesley (555725)

Association between central obesity indices and iron status indicators among Qatari adults by Kerkadi, Abdelhamid

“…This study aimed to investigate the link between abdominal obesity indices and iron status among adults in Qatar. A random sample of 1000 healthy Qatari adults, aged 20–50 years, was obtained from Qatar Biobank study. …”
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The <i>baldrian</i> mutation interferes with embryonic cardiomyocyte proliferation in zebrafish. by Anja Bühler (2556937)

Table_3_Bt GS57 Interaction With Gut Microbiota Accelerates Spodoptera exigua Mortality.XLS by Yazi Li (4162948)

“…Physiological and biochemical reactions showed that Bt GS57 belongs to B.t. var. thuringiensis. In addition, we found that B. thuringiensis can cause a dynamic change in the gut microbiota of S. exigua, with a significant reduction in bacterial diversity and a substantial increase in bacterial load. …”

Table_1_Bt GS57 Interaction With Gut Microbiota Accelerates Spodoptera exigua Mortality.XLS by Yazi Li (4162948)

“…Physiological and biochemical reactions showed that Bt GS57 belongs to B.t. var. thuringiensis. In addition, we found that B. thuringiensis can cause a dynamic change in the gut microbiota of S. exigua, with a significant reduction in bacterial diversity and a substantial increase in bacterial load. …”

Table_2_Bt GS57 Interaction With Gut Microbiota Accelerates Spodoptera exigua Mortality.XLS by Yazi Li (4162948)

“…Physiological and biochemical reactions showed that Bt GS57 belongs to B.t. var. thuringiensis. In addition, we found that B. thuringiensis can cause a dynamic change in the gut microbiota of S. exigua, with a significant reduction in bacterial diversity and a substantial increase in bacterial load. …”

Table_4_Bt GS57 Interaction With Gut Microbiota Accelerates Spodoptera exigua Mortality.XLS by Yazi Li (4162948)

“…Physiological and biochemical reactions showed that Bt GS57 belongs to B.t. var. thuringiensis. In addition, we found that B. thuringiensis can cause a dynamic change in the gut microbiota of S. exigua, with a significant reduction in bacterial diversity and a substantial increase in bacterial load. …”

Table_7_Bt GS57 Interaction With Gut Microbiota Accelerates Spodoptera exigua Mortality.XLS by Yazi Li (4162948)

“…Physiological and biochemical reactions showed that Bt GS57 belongs to B.t. var. thuringiensis. In addition, we found that B. thuringiensis can cause a dynamic change in the gut microbiota of S. exigua, with a significant reduction in bacterial diversity and a substantial increase in bacterial load. …”

Table_6_Bt GS57 Interaction With Gut Microbiota Accelerates Spodoptera exigua Mortality.XLS by Yazi Li (4162948)

“…Physiological and biochemical reactions showed that Bt GS57 belongs to B.t. var. thuringiensis. In addition, we found that B. thuringiensis can cause a dynamic change in the gut microbiota of S. exigua, with a significant reduction in bacterial diversity and a substantial increase in bacterial load. …”

Table_5_Bt GS57 Interaction With Gut Microbiota Accelerates Spodoptera exigua Mortality.XLS by Yazi Li (4162948)

“…Physiological and biochemical reactions showed that Bt GS57 belongs to B.t. var. thuringiensis. In addition, we found that B. thuringiensis can cause a dynamic change in the gut microbiota of S. exigua, with a significant reduction in bacterial diversity and a substantial increase in bacterial load. …”

Data_Sheet_1_Bt GS57 Interaction With Gut Microbiota Accelerates Spodoptera exigua Mortality.doc by Yazi Li (4162948)

“…Physiological and biochemical reactions showed that Bt GS57 belongs to B.t. var. thuringiensis. In addition, we found that B. thuringiensis can cause a dynamic change in the gut microbiota of S. exigua, with a significant reduction in bacterial diversity and a substantial increase in bacterial load. …”

Data_Sheet_1_Antagonistic Interactions and Clutch-Dependent Sensitivity Induce Variable Responses to Ocean Acidification and Warming in Squid (Doryteuthis pealeii) Embryos and Para... by Casey J. Zakroff (8865461)

NPB304 inhibited the MAPK pathway in MCF-7/paclitaxel cells. by Mei Mei (610571)

“…MCF-7 cells were pretreated with paclitaxel and 200 nM TPA for 24 h and subsequently exposed to paclitaxel for 48 h. (C) The expression of p-ERK1/2 was decreased in a concentration-dependent manner when MCF-7/paclitaxel cells were treated with 10 to 50 µM U0126 for 24 h. …”

Markers of inflammation in 10-day old implants from non-diabetic and diabetic rats. by Teresa Oviedo Socarrás (654955)

“…An increase in MPO activity (A) and decreased in NAG activity (B) were observed after diabetes induction, indicating a persistence of acute inflammatory response and delay in the chronic response. …”

Inhibitory effects of polydatin on mRNA expression levels of proinflammatory mediators. by Hong Zhang (25820)

“…<p>Pretreatment with polydatin for 5 consecutive days evidently decreased mRNA expression levels of TNF-α (A), IL-β₁ (B), COX-2 (C), and iNOS (D) prior to intraperitoneal injection of CCl₄ (50 µg/kg). …”

Fruit development of <i>TAGL1</i> RNAi tomato lines. by Estela Giménez (234298)

“…Vertical yellow lines indicate epidermal (e) and collenchyma (c) cell layers. Scale bar: 500 µm in C–D; 50 µm in E–F.…”

Increased Fhl1b activity suppresses specification of pancreatic cells and induces liver. by Jin Xu (31283)

“…<p>(A-D) Whole-mount <i>in situ</i> hybridization showing the expression of <i>hhex</i> (A and B) and <i>pdx1</i> (C and D), comparing control embryos (A and C) and <i>fhl1b-</i>overexpressing embryos (B and D, heat shock applied at the 8-somite stage) at 45 hpf. …”