Tiny Molecular Beacons: LNA/2′-<i>O</i>-methyl RNA Chimeric Probes for Imaging Dynamic mRNA Processes in Living Cells by Irina E. Catrina (2041648)

“…The use of molecular beacons synthesized from 2′-<i>O</i>-methylribonucleotides (which are resistant to cellular nucleases) is an established approach for visualizing native mRNAs in real time. …”

Tiny Molecular Beacons: LNA/2′-<i>O</i>-methyl RNA Chimeric Probes for Imaging Dynamic mRNA Processes in Living Cells by Irina E. Catrina (2041648)

“…The use of molecular beacons synthesized from 2′-<i>O</i>-methylribonucleotides (which are resistant to cellular nucleases) is an established approach for visualizing native mRNAs in real time. …”

Tiny Molecular Beacons: LNA/2′-<i>O</i>-methyl RNA Chimeric Probes for Imaging Dynamic mRNA Processes in Living Cells by Irina E. Catrina (2041648)

“…The use of molecular beacons synthesized from 2′-<i>O</i>-methylribonucleotides (which are resistant to cellular nucleases) is an established approach for visualizing native mRNAs in real time. …”

Tiny Molecular Beacons: LNA/2′-<i>O</i>-methyl RNA Chimeric Probes for Imaging Dynamic mRNA Processes in Living Cells by Irina E. Catrina (2041648)

“…The use of molecular beacons synthesized from 2′-<i>O</i>-methylribonucleotides (which are resistant to cellular nucleases) is an established approach for visualizing native mRNAs in real time. …”

Tiny Molecular Beacons: LNA/2′-<i>O</i>-methyl RNA Chimeric Probes for Imaging Dynamic mRNA Processes in Living Cells by Irina E. Catrina (2041648)

“…The use of molecular beacons synthesized from 2′-<i>O</i>-methylribonucleotides (which are resistant to cellular nucleases) is an established approach for visualizing native mRNAs in real time. …”

Tiny Molecular Beacons: LNA/2′-<i>O</i>-methyl RNA Chimeric Probes for Imaging Dynamic mRNA Processes in Living Cells by Irina E. Catrina (2041648)

“…The use of molecular beacons synthesized from 2′-<i>O</i>-methylribonucleotides (which are resistant to cellular nucleases) is an established approach for visualizing native mRNAs in real time. …”

Tiny Molecular Beacons: LNA/2′-<i>O</i>-methyl RNA Chimeric Probes for Imaging Dynamic mRNA Processes in Living Cells by Irina E. Catrina (2041648)

“…The use of molecular beacons synthesized from 2′-<i>O</i>-methylribonucleotides (which are resistant to cellular nucleases) is an established approach for visualizing native mRNAs in real time. …”

Tiny Molecular Beacons: LNA/2′-<i>O</i>-methyl RNA Chimeric Probes for Imaging Dynamic mRNA Processes in Living Cells by Irina E. Catrina (2041648)

“…The use of molecular beacons synthesized from 2′-<i>O</i>-methylribonucleotides (which are resistant to cellular nucleases) is an established approach for visualizing native mRNAs in real time. …”

Tiny Molecular Beacons: LNA/2′-<i>O</i>-methyl RNA Chimeric Probes for Imaging Dynamic mRNA Processes in Living Cells by Irina E. Catrina (2041648)

“…The use of molecular beacons synthesized from 2′-<i>O</i>-methylribonucleotides (which are resistant to cellular nucleases) is an established approach for visualizing native mRNAs in real time. …”

Tiny Molecular Beacons: LNA/2′-<i>O</i>-methyl RNA Chimeric Probes for Imaging Dynamic mRNA Processes in Living Cells by Irina E. Catrina (2041648)

“…The use of molecular beacons synthesized from 2′-<i>O</i>-methylribonucleotides (which are resistant to cellular nucleases) is an established approach for visualizing native mRNAs in real time. …”

Protective Effects of Membrane-Anchored and Secreted DNA Vaccines Encoding Fatty Acid-Binding Protein and Glutathione S-Transferase against <i>Schistosoma japonicum</i> by Yaqin Tu (513262)

The Repressive Effect of miR-148a on TGF beta-SMADs Signal Pathway Is Involved in the Glabridin-Induced Inhibition of the Cancer Stem Cells-Like Properties in Hepatocellular Carcin... by Fei Jiang (324511)

“…Further, GLA improved the expression of miR-148a in a dose/time-dependent manner. MiR-148a, which targeted the <i>SMAD2</i>-3′UTR, decreased the expression and function of SMAD2. …”

Data Sheet 1_The lifespan-extending MEK1 inhibitor trametinib promotes regulation of de novo lipogenesis enzymes by chaperone-mediated autophagy.pdf by Jiexian Chen (21597773)

“…<p>The availability of multiple slow-aging mice allows a search for possible shared mechanisms that affect the rate of aging. …”

DataSheet_1_The importance of taking ART appropriately in children and adolescents with HIV-1 to reach the highest capacity of immune function later in life.pdf by Katrine Schou Sandgaard (11201775)

“…A strong homeostatic TCR response, driven by the decreased CD4⁺ T cell compartment and reduced thymic output was observed in the virally uncontrolled HIV-1-infected adolescents. …”

The number of β-gal positive cells increases during postnatal development of homozygous mCx47<i>M282T</i> expressing mice. by Oliver Tress (214694)

“…In gray matter, β-gal positive cells were scatterly distributed with a decreasing gradient ranging from layers VI to I of the neocortex. …”

Community Rates of IgG4 Antibodies to <i>Ascaris</i> Haemoglobin Reflect Changes in Community Egg Loads Following Mass Drug Administration by Johnny Vlaminck (392818)

“…While the AsHb antibody assay was not sensitive for detecting all individuals with <i>Ascaris</i> eggs in their stools, the percentage of seropositive individuals decreased rapidly following MDA. …”

The PTEN 3’UTR is a target of miR-486. by Dan Li (106345)

Brain regions with significant differences for four RSNs in the CD group vs. the TD group (<i>p</i> < 0.05, AlphaSim corrected). by Feng-Mei Lu (529974)

Video1_The Sall2 transcription factor promotes cell migration regulating focal adhesion turnover and integrin β1 expression.MP4 by Elizabeth Riffo (14079519)

“…Accordingly, restoring Sall2 expression in the Sall2^−/− iMEFs by using a doxycycline-inducible Tet-On system recovered cell migratory capabilities and focal adhesion dynamics. …”

Division-induced DNA double strand breaks in the chromosome terminus region of <i>Escherichia coli</i> lacking RecBCD DNA repair enzyme by Anurag Kumar Sinha (2825945)

“…Using fluorescence microscopy of a marked chromosomal site, we show that the <i>dif</i> region is lost after replication completion, at the time of cell division, in one daughter cell only, and that the phenomenon is transmitted to progeny. …”