Table_5_Effects of respiratory virus vaccination and bovine respiratory disease on the respiratory microbiome of feedlot cattle.DOCX by Taylor B. McAtee (16320096)

“…Calves (n = 525) arrived in 5 truckload blocks and were stratified by body weight, sex, and presence of a pre-existing identification ear-tag. …”

WT and ∆<i>lcrF</i> strains grew similarly in M9 media and exhibit similar gentamicin susceptibility. by Justin Greene (306625)

Ocular development and marker expression in <i>pitx2^ex4/5</i> morphants. by Yi Liu (36759)

“…Please note expression of <i>pax6a</i> in the developing retina of the control and morphant embryos (arrowheads in <b>A–D</b>); similar <i>pitx3</i> expression in the developing lens in 48–72-hpf control and morphant embryos (arrowheads in <b>E–H</b>; abnormally developing pharyngeal arches and oral cavity in 48–72-hpf embryos are marked with arrows); reduced expression of <i>dkk2</i> in the anterior segment of the <i>pitx2</i> morphants (arrowheads in <b>I–L</b>); decreased/absent expression of corneal keratan sulfate proteoglycan (CKS) in the developing morphant corneas (red fluorescence, arrowheads in <b>M–P</b>) but similar expression of crystallins αA (green fluorescence, arrows in <b>M, N</b>) and βB1 (green fluorescence, arrows in <b>O, P</b>) in control and morphant lenses; and a decreased/absent expression of the <i>Tg(gsnl1:gfp)</i> transgene in the developing iridocorneal structures of <i>pitx2^ex4/5</i> morphants (arrowheads in <b>R, T</b>) in comparison to control embryos (<b>Q, S</b>). …”

Kinetics of alpaca innate immune responses at the nasal submucosa in response to MERS-CoV Qatar15/2015. by Nigeer Te (7849808)

“…TFs, transcription factors; CKs, chemokines; ADs, adaptors; RT, receptor. MERS-CoV+ and MERS-CoV-, MERS-CoV positive and negative epithelium areas as assessed by IHC, respectively. …”

Proposed model for the inhibitory effect of prolonged Htr2b activation on GSIS in MIN6 cells. by Luis Rodrigo Cataldo (3701206)

“…<p>MIN6 cells constitute a functional microserotoninergic system, with the ability to synthesis 5HT from its precursors (tryptophan or 5HTP), storage, degrade and release this monoamine. …”

Distribution of RAD52, BRCA2, BRCA1 and PALB2 mutations in cancer cells. by Abdulaziz B. Hamid (13804692)

Image_5_Salinity significantly affects methane oxidation and methanotrophic community in Inner Mongolia lake sediments.JPEG by Shaohua Zhang (109533)

ORF45/eIF4B-dependent translational control of mRNAs with complex 5’ UTR structure. by Denis Avey (764372)

Data_Sheet_1_“Urate and NOX5 Control Blood Digestion in the Hematophagous Insect Rhodnius prolixus”.PDF by Ana Caroline P. Gandara (10191455)

“…Together with impaired peristalsis, silencing either genes impaired egg production and hemoglobin digestion, and decreased hemolymph urate titers. Ultrastructurally, the silencing of RpNOX5 or RpXDH affected midgut cells, changing the cells of blood-fed insects to a phenotype resembling the cells of unfed insects, suggesting that these genes work together in the control of blood digestion. …”

Image_5_The Impact of Mercury Selection and Conjugative Genetic Elements on Community Structure and Resistance Gene Transfer.JPEG by James P. J. Hall (9207143)

“…Nevertheless, the introduced merA gene spread to a phylogenetically diverse set of recipients over the 5 weeks of the experiment, as assessed by epicPCR. …”

Table_2_ALDH1A3 Is the Key Isoform That Contributes to Aldehyde Dehydrogenase Activity and Affects in Vitro Proliferation in Cardiac Atrial Appendage Progenitor Cells.DOCX by Stefania Puttini (5546912)

“…Knocking down ALDH1A3, but not ALDH1A1, ALDH1A2, ALDH2, ALDH4A1, or ALDH8A1 using siRNA decreased ALDH activity and cell proliferation in ALDH^hi cells. …”

Table_3_ALDH1A3 Is the Key Isoform That Contributes to Aldehyde Dehydrogenase Activity and Affects in Vitro Proliferation in Cardiac Atrial Appendage Progenitor Cells.DOCX by Stefania Puttini (5546912)

“…Knocking down ALDH1A3, but not ALDH1A1, ALDH1A2, ALDH2, ALDH4A1, or ALDH8A1 using siRNA decreased ALDH activity and cell proliferation in ALDH^hi cells. …”

Table_1_ALDH1A3 Is the Key Isoform That Contributes to Aldehyde Dehydrogenase Activity and Affects in Vitro Proliferation in Cardiac Atrial Appendage Progenitor Cells.DOCX by Stefania Puttini (5546912)

“…Knocking down ALDH1A3, but not ALDH1A1, ALDH1A2, ALDH2, ALDH4A1, or ALDH8A1 using siRNA decreased ALDH activity and cell proliferation in ALDH^hi cells. …”

Table_5_Effects of different grassland use patterns on soil bacterial communities in the karst desertification areas.XLSX by Yongkuan Chi (7553228)

Data_Sheet_5_Microbial community structure dynamics of invasive bullfrog with meningitis-like infectious disease.pdf by Wengang Li (300649)

“…It is highly contagious and has a high mortality rate. In this study, we sampled and sequenced microbiomes from oral and intestinal samples of five normal and five diseased bullfrogs. …”

Video_7_Contribution of 5-HT2 Receptors to the Control of the Spinal Locomotor System in Intact Rats.WMV by Henryk Majczyński (830716)

“…Little is known about the role of 5-HT receptors in the control of voluntary locomotion, so we administered inverse agonists of 5-HT₂ (Cyproheptadine; Cypr), 5-HT_2A neutral antagonist (Volinanserin; Volin), 5-HT_2C neutral antagonist (SB 242084), and 5-HT_2B/2C inverse agonist (SB 206553) receptors intrathecally in intact rats and monitored their effects on unrestrained locomotion. …”

Image_3_Contribution of 5-HT2 Receptors to the Control of the Spinal Locomotor System in Intact Rats.JPEG by Henryk Majczyński (830716)

“…Little is known about the role of 5-HT receptors in the control of voluntary locomotion, so we administered inverse agonists of 5-HT₂ (Cyproheptadine; Cypr), 5-HT_2A neutral antagonist (Volinanserin; Volin), 5-HT_2C neutral antagonist (SB 242084), and 5-HT_2B/2C inverse agonist (SB 206553) receptors intrathecally in intact rats and monitored their effects on unrestrained locomotion. …”

Image_2_Contribution of 5-HT2 Receptors to the Control of the Spinal Locomotor System in Intact Rats.JPEG by Henryk Majczyński (830716)

“…Little is known about the role of 5-HT receptors in the control of voluntary locomotion, so we administered inverse agonists of 5-HT₂ (Cyproheptadine; Cypr), 5-HT_2A neutral antagonist (Volinanserin; Volin), 5-HT_2C neutral antagonist (SB 242084), and 5-HT_2B/2C inverse agonist (SB 206553) receptors intrathecally in intact rats and monitored their effects on unrestrained locomotion. …”

Image_4_Contribution of 5-HT2 Receptors to the Control of the Spinal Locomotor System in Intact Rats.JPEG by Henryk Majczyński (830716)

“…Little is known about the role of 5-HT receptors in the control of voluntary locomotion, so we administered inverse agonists of 5-HT₂ (Cyproheptadine; Cypr), 5-HT_2A neutral antagonist (Volinanserin; Volin), 5-HT_2C neutral antagonist (SB 242084), and 5-HT_2B/2C inverse agonist (SB 206553) receptors intrathecally in intact rats and monitored their effects on unrestrained locomotion. …”

Video_3_Contribution of 5-HT2 Receptors to the Control of the Spinal Locomotor System in Intact Rats.WMV by Henryk Majczyński (830716)

“…Little is known about the role of 5-HT receptors in the control of voluntary locomotion, so we administered inverse agonists of 5-HT₂ (Cyproheptadine; Cypr), 5-HT_2A neutral antagonist (Volinanserin; Volin), 5-HT_2C neutral antagonist (SB 242084), and 5-HT_2B/2C inverse agonist (SB 206553) receptors intrathecally in intact rats and monitored their effects on unrestrained locomotion. …”