β-Catenin signalling cells increase with Wnt3a but have reduced SSC activity. by Jonathan R. Yeh (155141)

“…Asterisks indicate significance from fraction II. Scale bar: (A–B) 50 µm, inset: 100 µm.</p>…”

Supplementary Figure 1 by Rajesh Gupta (65584)

“…Fasting (and incubation in 100 µM nicotinic acid) led to a significant decrease in the PPR in GPR109A+/+ mice (as seen in C57BL/6J mice; compare with Figure 6A). …”

Whole mount in situ hybridization (WISH) for <i>atp6v1e1</i> ohnologs in zebrafish embryos. by Lore Pottie (10994479)

“…<p>(A-C) Representative images demonstrating WISH for <i>atp6v1e1a</i> and <i>atp6v1e1b</i> at different developmental time points (24 hpf (n = 7), 48 hpf (n = 7), 72 hpf (n = 7), 120 hpf (n = 7) and 168 hpf (n = 7)). …”

HIV-1 mediates downregulation of CD155 on infected CD4⁺ T cells in a Nef-dependent manner. by Pia Fittje (12936621)

Photo-bleaching experiments using acridine orange. by Rumelo Amor (2180450)

“…<p>(<i>a</i>) Single-photon and two-photon excited widefield images of lens tissue fibres stained with 120 <i>μ</i>M acridine orange in PBS, taken at image acquisition rates of 1 Hz, 10 Hz and 100 Hz with continuous irradiation for 600 seconds. …”

α-GalCer expanded iNKT cells from SLE patients had deficient perforin expression but comparable ability to enhance NK cytotoxicity. by Chien-Ya Hsu (11868746)

IL-15 enhanced CD69, CD1d, and CD11a expression of α-GalCer-treated iNKT cells in SLE patients. by Chien-Ya Hsu (11868746)

Time-dependent decrease of ln-transformed relative abundance of puparial hydrocarbons in <i>Chrysomya megacephala</i> during the 90-day weathering process, only for nine of those p... by Guang-Hui Zhu (454717)

Defective response to α-GalCer in SLE CD161⁺ iNKT cells restored by IL-15. by Chien-Ya Hsu (11868746)

Deficient α-GalCer-induced expansion of iNKT cells and poor response to IL-15 in SLE patients. by Chien-Ya Hsu (11868746)

IL-4, but not interferon-γ expression is deficient in iNKT cells from SLE patient. by Chien-Ya Hsu (11868746)

Effect of IL-15 +α-GalCer stimulation on the percentages of CD3⁺/CD56⁺ NKT-like cells in SLE MNCs. by Chien-Ya Hsu (11868746)

CD161, granzyme B and perforin expression of α-GalCer + IL-15 treated iNKT cells correlate with markers of SLE disease activity. by Chien-Ya Hsu (11868746)

Antiferromagnetic Ordering in the Single-Component Molecular Conductor [Pd(tmdt)₂] by Satomi Ogura (2880509)

“…To investigate the magnetic state, ¹H nuclear magnetic resonance (NMR) measurements were performed in the temperature range of 2.5–271 K, revealing broadening below 100 K. The NMR relaxation rate gradually increased below 100 K and formed a broad peak at approximately 50 K, followed by a gradual decrease down to the lowest temperature. …”

Antiferromagnetic Ordering in the Single-Component Molecular Conductor [Pd(tmdt)₂] by Satomi Ogura (2880509)

“…To investigate the magnetic state, ¹H nuclear magnetic resonance (NMR) measurements were performed in the temperature range of 2.5–271 K, revealing broadening below 100 K. The NMR relaxation rate gradually increased below 100 K and formed a broad peak at approximately 50 K, followed by a gradual decrease down to the lowest temperature. …”

Antiferromagnetic Ordering in the Single-Component Molecular Conductor [Pd(tmdt)₂] by Satomi Ogura (2880509)

“…To investigate the magnetic state, ¹H nuclear magnetic resonance (NMR) measurements were performed in the temperature range of 2.5–271 K, revealing broadening below 100 K. The NMR relaxation rate gradually increased below 100 K and formed a broad peak at approximately 50 K, followed by a gradual decrease down to the lowest temperature. …”

Antiferromagnetic Ordering in the Single-Component Molecular Conductor [Pd(tmdt)₂] by Satomi Ogura (2880509)

“…To investigate the magnetic state, ¹H nuclear magnetic resonance (NMR) measurements were performed in the temperature range of 2.5–271 K, revealing broadening below 100 K. The NMR relaxation rate gradually increased below 100 K and formed a broad peak at approximately 50 K, followed by a gradual decrease down to the lowest temperature. …”

Antiferromagnetic Ordering in the Single-Component Molecular Conductor [Pd(tmdt)₂] by Satomi Ogura (2880509)

“…To investigate the magnetic state, ¹H nuclear magnetic resonance (NMR) measurements were performed in the temperature range of 2.5–271 K, revealing broadening below 100 K. The NMR relaxation rate gradually increased below 100 K and formed a broad peak at approximately 50 K, followed by a gradual decrease down to the lowest temperature. …”

Antiferromagnetic Ordering in the Single-Component Molecular Conductor [Pd(tmdt)₂] by Satomi Ogura (2880509)

“…To investigate the magnetic state, ¹H nuclear magnetic resonance (NMR) measurements were performed in the temperature range of 2.5–271 K, revealing broadening below 100 K. The NMR relaxation rate gradually increased below 100 K and formed a broad peak at approximately 50 K, followed by a gradual decrease down to the lowest temperature. …”

Antiferromagnetic Ordering in the Single-Component Molecular Conductor [Pd(tmdt)₂] by Satomi Ogura (2880509)

“…To investigate the magnetic state, ¹H nuclear magnetic resonance (NMR) measurements were performed in the temperature range of 2.5–271 K, revealing broadening below 100 K. The NMR relaxation rate gradually increased below 100 K and formed a broad peak at approximately 50 K, followed by a gradual decrease down to the lowest temperature. …”