Image7_Modelling the bottom-up effects of climate change on primary production in the Gulf of St. Lawrence and eastern Scotian Shelf.png by Zhi-Ping Mei (19427332)

“…The objectives of this study are to determine how climate changes will affect primary production in the GSL and on the eastern Scotian Shelf, and to determine the drivers of the changes. We use a regional ocean model forced with downscaled output of the Max-Planck Institute Earth System Model to study the changes in net primary production under the climate change scenario of Representative Concentration Pathway 8.5 (RCP8.5). …”

Effect of De-intensifying Diabetes Medications on Negative Events in Older Veteran Nursing Home Residents by Joshua D. Niznik (12480320)

“…</p> <p><strong>Research Design and Methods: </strong>We conducted a national retrospective cohort study of 2,082 newly admitted non-hospice Veteran NH residents with LLE/AD potentially overtreated for diabetes (HbA1c ≤7.5% and ≥1 diabetes medication) in fiscal years 2009-2015. …”

Datasheet1_MRI visibility and displacement of elective lymph nodes during radiotherapy in head and neck cancer patients.pdf by Floris C. J. Reinders (14049621)

“…Background and purpose<p>To decrease the impact of radiotherapy to healthy tissues in the head and neck region, we propose to restrict the elective neck irradiation to elective lymph nodes at risk of containing micro metastases instead of the larger lymph node volumes. …”

Image_1_Sex differences in motor learning flexibility are accompanied by sex differences in mushroom spine pruning of the mouse primary motor cortex during adolescence.JPEG by Michael Tekin (18989888)

“…Cognitive flexibility is associated with low baseline mushroom spine densities achieved by pruning which can be triggered by α4βδ GABAA receptors (GABARs); defective synaptic pruning impairs this process.</p>Methods<p>We investigated sex differences in adolescent pruning of mushroom spine pruning of layer 5 pyramidal cells of primary motor cortex (L5M1), a site essential for motor learning, using microscopic evaluation of Golgi stained sections. …”

C2CD3 regulates spatial organization of centriole architecture. by Eloïse Bertiaux (5309927)

“…<b>(F)</b> Expanded centrioles stained for α/β-tubulin and the inner scaffold protein POC5. POC5 length: siC2CD3 (<i>n</i> = 43, 80 ± 26 nm) vs. siCTRL (<i>n</i> = 30, 204 ± 46 nm), ****<i>P</i> < 0.0001. …”

Table_3_Metaomics unveils the contribution of Alteromonas bacteria to carbon cycling in marine oxygen minimum zones.xlsx by Carlos Henríquez-Castillo (5247005)

“…Comparative genomic studies of these microorganisms have mainly focused on the metabolic and genomic plasticity of strains isolated primarily from oxygenated environments. In this study, we show that Alteromonas significantly contribute to marine microbial communities from suboxic waters ([O₂] < 5 uM) in both the free-living (FL) and particle-attached (PA) fractions, but considerably decrease in abundance in the anoxic waters. …”

Table_1_Metaomics unveils the contribution of Alteromonas bacteria to carbon cycling in marine oxygen minimum zones.xlsx by Carlos Henríquez-Castillo (5247005)

“…Comparative genomic studies of these microorganisms have mainly focused on the metabolic and genomic plasticity of strains isolated primarily from oxygenated environments. In this study, we show that Alteromonas significantly contribute to marine microbial communities from suboxic waters ([O₂] < 5 uM) in both the free-living (FL) and particle-attached (PA) fractions, but considerably decrease in abundance in the anoxic waters. …”

Table_4_Metaomics unveils the contribution of Alteromonas bacteria to carbon cycling in marine oxygen minimum zones.xlsx by Carlos Henríquez-Castillo (5247005)

“…Comparative genomic studies of these microorganisms have mainly focused on the metabolic and genomic plasticity of strains isolated primarily from oxygenated environments. In this study, we show that Alteromonas significantly contribute to marine microbial communities from suboxic waters ([O₂] < 5 uM) in both the free-living (FL) and particle-attached (PA) fractions, but considerably decrease in abundance in the anoxic waters. …”

Table_3_Metaomics unveils the contribution of alteromonas bacteria to carbon cycling in marine oxygen minimum zones.xlsx by Carlos Henríquez-Castillo (5247005)

“…Comparative genomic studies of these microorganisms have mainly focused on the metabolic and genomic plasticity of strains isolated primarily from oxygenated environments. In this study, we show that Alteromonas significantly contribute to marine microbial communities from suboxic waters ([O₂] < 5 uM) in both the free-living (FL) and particle-attached (PA) fractions, but considerably decrease in abundance in the anoxic waters. …”

Repository COMVIVIR .xlsx by Elba Medina (17807321)

“…The viral load was determined for N,E, and RdRp viral genes.</p><p dir="ltr">A significant decrease in viral load was observed in the three treatment groups, with a larger effect size in the group that combined Steroid sistemic with both test drugs. …”

Table_6_Metaomics unveils the contribution of alteromonas bacteria to carbon cycling in marine oxygen minimum zones.xlsx by Carlos Henríquez-Castillo (5247005)

“…Comparative genomic studies of these microorganisms have mainly focused on the metabolic and genomic plasticity of strains isolated primarily from oxygenated environments. In this study, we show that Alteromonas significantly contribute to marine microbial communities from suboxic waters ([O₂] < 5 uM) in both the free-living (FL) and particle-attached (PA) fractions, but considerably decrease in abundance in the anoxic waters. …”

Table_1_Metaomics unveils the contribution of alteromonas bacteria to carbon cycling in marine oxygen minimum zones.xlsx by Carlos Henríquez-Castillo (5247005)

“…Comparative genomic studies of these microorganisms have mainly focused on the metabolic and genomic plasticity of strains isolated primarily from oxygenated environments. In this study, we show that Alteromonas significantly contribute to marine microbial communities from suboxic waters ([O₂] < 5 uM) in both the free-living (FL) and particle-attached (PA) fractions, but considerably decrease in abundance in the anoxic waters. …”

Table_4_Metaomics unveils the contribution of alteromonas bacteria to carbon cycling in marine oxygen minimum zones.xlsx by Carlos Henríquez-Castillo (5247005)

“…Comparative genomic studies of these microorganisms have mainly focused on the metabolic and genomic plasticity of strains isolated primarily from oxygenated environments. In this study, we show that Alteromonas significantly contribute to marine microbial communities from suboxic waters ([O₂] < 5 uM) in both the free-living (FL) and particle-attached (PA) fractions, but considerably decrease in abundance in the anoxic waters. …”

Table_7_Metaomics unveils the contribution of alteromonas bacteria to carbon cycling in marine oxygen minimum zones.xlsx by Carlos Henríquez-Castillo (5247005)

“…Comparative genomic studies of these microorganisms have mainly focused on the metabolic and genomic plasticity of strains isolated primarily from oxygenated environments. In this study, we show that Alteromonas significantly contribute to marine microbial communities from suboxic waters ([O₂] < 5 uM) in both the free-living (FL) and particle-attached (PA) fractions, but considerably decrease in abundance in the anoxic waters. …”

Table_7_Metaomics unveils the contribution of Alteromonas bacteria to carbon cycling in marine oxygen minimum zones.xlsx by Carlos Henríquez-Castillo (5247005)

“…Comparative genomic studies of these microorganisms have mainly focused on the metabolic and genomic plasticity of strains isolated primarily from oxygenated environments. In this study, we show that Alteromonas significantly contribute to marine microbial communities from suboxic waters ([O₂] < 5 uM) in both the free-living (FL) and particle-attached (PA) fractions, but considerably decrease in abundance in the anoxic waters. …”

DataSheet_1_Metaomics unveils the contribution of Alteromonas bacteria to carbon cycling in marine oxygen minimum zones.pdf by Carlos Henríquez-Castillo (5247005)

“…Comparative genomic studies of these microorganisms have mainly focused on the metabolic and genomic plasticity of strains isolated primarily from oxygenated environments. In this study, we show that Alteromonas significantly contribute to marine microbial communities from suboxic waters ([O₂] < 5 uM) in both the free-living (FL) and particle-attached (PA) fractions, but considerably decrease in abundance in the anoxic waters. …”

Table_2_Metaomics unveils the contribution of Alteromonas bacteria to carbon cycling in marine oxygen minimum zones.xlsx by Carlos Henríquez-Castillo (5247005)

“…Comparative genomic studies of these microorganisms have mainly focused on the metabolic and genomic plasticity of strains isolated primarily from oxygenated environments. In this study, we show that Alteromonas significantly contribute to marine microbial communities from suboxic waters ([O₂] < 5 uM) in both the free-living (FL) and particle-attached (PA) fractions, but considerably decrease in abundance in the anoxic waters. …”

DataSheet_1_Metaomics unveils the contribution of alteromonas bacteria to carbon cycling in marine oxygen minimum zones.pdf by Carlos Henríquez-Castillo (5247005)

“…Comparative genomic studies of these microorganisms have mainly focused on the metabolic and genomic plasticity of strains isolated primarily from oxygenated environments. In this study, we show that Alteromonas significantly contribute to marine microbial communities from suboxic waters ([O₂] < 5 uM) in both the free-living (FL) and particle-attached (PA) fractions, but considerably decrease in abundance in the anoxic waters. …”

Table_2_Metaomics unveils the contribution of alteromonas bacteria to carbon cycling in marine oxygen minimum zones.xlsx by Carlos Henríquez-Castillo (5247005)

“…Comparative genomic studies of these microorganisms have mainly focused on the metabolic and genomic plasticity of strains isolated primarily from oxygenated environments. In this study, we show that Alteromonas significantly contribute to marine microbial communities from suboxic waters ([O₂] < 5 uM) in both the free-living (FL) and particle-attached (PA) fractions, but considerably decrease in abundance in the anoxic waters. …”

Table_6_Metaomics unveils the contribution of Alteromonas bacteria to carbon cycling in marine oxygen minimum zones.xlsx by Carlos Henríquez-Castillo (5247005)

“…Comparative genomic studies of these microorganisms have mainly focused on the metabolic and genomic plasticity of strains isolated primarily from oxygenated environments. In this study, we show that Alteromonas significantly contribute to marine microbial communities from suboxic waters ([O₂] < 5 uM) in both the free-living (FL) and particle-attached (PA) fractions, but considerably decrease in abundance in the anoxic waters. …”