Supplementary Material for: Methylation of the oxytocin, oxytocin receptor, and vasopressin gene pro-moters in tobacco use disorder during cessation by Proskynitopoulos P.J. (17705466)

“…Using mixed linear modeling, CpG position, time point, sex, and the interaction of time point and sex as well as time point, sex, and QSU had a significant fixed ef-fect on OT and AVP gene methylation. …”

Data_Sheet_1_Inhibitory Effects of Dietary N-Glycans From Bovine Lactoferrin on Toll-Like Receptor 8; Comparing Efficacy With Chloroquine.PDF by Susana Figueroa-Lozano (8825519)

“…The inhibition of TLR-8 in MoDCs resulted in a significant decrease of IL-6 when cells were treated with the unmodified (0.5-fold, p < 0.0001), partially demannosylated (0.3-fold, p < 0.0001) and partially desialylated (0.4-fold, p < 0.0001) N-glycans. …”

Blood cell distribution and interleukin 6 plasma concentration. by Lena Wester-Rosenlöf (515985)

“…No significant changes were seen in the placebo-treated animals vs their 0 h values at any time-point. A small, non-significant, decrease of cells in the placebo-treated group led to a significantly higher number of total leukocyte in the A1M treated animals vs placebo treated at the end point (p<0.03). …”

The acoustic activity of <i>Physalaemus cuvieri</i> (Anura Leptodactylidae) is strongly influenced by climatic conditions, but not by latitude or landscape metrics by Bruno B. Bittar (17099763)

Simulation of the ring attractor network with flashing input during the wake phase with slow plasticity time constants (details in Methods(4.9)). by Andres Flores-Valle (11114221)

“…We decreased the time resolution of the simulation (time step is 0.001 seconds) and decreased the value to 30. …”

Pre-training refines the spatio-temporal receptive field of neurons in the output layer. by Lilly May (18993384)

“…Notably, the decrease in the receptive field size over the 10 frames for each model is a result of the convolution process. …”

Image 6_Divergent B-cell and cytotoxic TNK cell activation signatures in HLA-B27-associated ankylosing spondylitis and acute anterior uveitis.jpeg by Eisa Mahyari (9681962)

“…Using cellular indexing of transcriptomes and epitopes (CITE-Seq) in a well-characterized cohort of 25 subjects—including AS (HLA-B27^pos), AS+AAU (HLA-B27^pos), AAU (HLA-B27^pos), HCs (HLA-B27^pos), and HCs (HLA-B27^neg); N = 5/group—we identified transcriptomic differences at the single-cell level, along with differentially expressed cell surface markers. …”

Image 9_Divergent B-cell and cytotoxic TNK cell activation signatures in HLA-B27-associated ankylosing spondylitis and acute anterior uveitis.jpeg by Eisa Mahyari (9681962)

“…Using cellular indexing of transcriptomes and epitopes (CITE-Seq) in a well-characterized cohort of 25 subjects—including AS (HLA-B27^pos), AS+AAU (HLA-B27^pos), AAU (HLA-B27^pos), HCs (HLA-B27^pos), and HCs (HLA-B27^neg); N = 5/group—we identified transcriptomic differences at the single-cell level, along with differentially expressed cell surface markers. …”

Data Sheet 1_Divergent B-cell and cytotoxic TNK cell activation signatures in HLA-B27-associated ankylosing spondylitis and acute anterior uveitis.docx by Eisa Mahyari (9681962)

“…Using cellular indexing of transcriptomes and epitopes (CITE-Seq) in a well-characterized cohort of 25 subjects—including AS (HLA-B27^pos), AS+AAU (HLA-B27^pos), AAU (HLA-B27^pos), HCs (HLA-B27^pos), and HCs (HLA-B27^neg); N = 5/group—we identified transcriptomic differences at the single-cell level, along with differentially expressed cell surface markers. …”

Data Sheet 2_Divergent B-cell and cytotoxic TNK cell activation signatures in HLA-B27-associated ankylosing spondylitis and acute anterior uveitis.xlsx by Eisa Mahyari (9681962)

“…Using cellular indexing of transcriptomes and epitopes (CITE-Seq) in a well-characterized cohort of 25 subjects—including AS (HLA-B27^pos), AS+AAU (HLA-B27^pos), AAU (HLA-B27^pos), HCs (HLA-B27^pos), and HCs (HLA-B27^neg); N = 5/group—we identified transcriptomic differences at the single-cell level, along with differentially expressed cell surface markers. …”

Image 3_Divergent B-cell and cytotoxic TNK cell activation signatures in HLA-B27-associated ankylosing spondylitis and acute anterior uveitis.jpeg by Eisa Mahyari (9681962)

“…Using cellular indexing of transcriptomes and epitopes (CITE-Seq) in a well-characterized cohort of 25 subjects—including AS (HLA-B27^pos), AS+AAU (HLA-B27^pos), AAU (HLA-B27^pos), HCs (HLA-B27^pos), and HCs (HLA-B27^neg); N = 5/group—we identified transcriptomic differences at the single-cell level, along with differentially expressed cell surface markers. …”

Data Sheet 3_Divergent B-cell and cytotoxic TNK cell activation signatures in HLA-B27-associated ankylosing spondylitis and acute anterior uveitis.xlsx by Eisa Mahyari (9681962)

“…Using cellular indexing of transcriptomes and epitopes (CITE-Seq) in a well-characterized cohort of 25 subjects—including AS (HLA-B27^pos), AS+AAU (HLA-B27^pos), AAU (HLA-B27^pos), HCs (HLA-B27^pos), and HCs (HLA-B27^neg); N = 5/group—we identified transcriptomic differences at the single-cell level, along with differentially expressed cell surface markers. …”

Image 7_Divergent B-cell and cytotoxic TNK cell activation signatures in HLA-B27-associated ankylosing spondylitis and acute anterior uveitis.jpg by Eisa Mahyari (9681962)

“…Using cellular indexing of transcriptomes and epitopes (CITE-Seq) in a well-characterized cohort of 25 subjects—including AS (HLA-B27^pos), AS+AAU (HLA-B27^pos), AAU (HLA-B27^pos), HCs (HLA-B27^pos), and HCs (HLA-B27^neg); N = 5/group—we identified transcriptomic differences at the single-cell level, along with differentially expressed cell surface markers. …”

Image 1_Divergent B-cell and cytotoxic TNK cell activation signatures in HLA-B27-associated ankylosing spondylitis and acute anterior uveitis.jpeg by Eisa Mahyari (9681962)

“…Using cellular indexing of transcriptomes and epitopes (CITE-Seq) in a well-characterized cohort of 25 subjects—including AS (HLA-B27^pos), AS+AAU (HLA-B27^pos), AAU (HLA-B27^pos), HCs (HLA-B27^pos), and HCs (HLA-B27^neg); N = 5/group—we identified transcriptomic differences at the single-cell level, along with differentially expressed cell surface markers. …”

Image 2_Divergent B-cell and cytotoxic TNK cell activation signatures in HLA-B27-associated ankylosing spondylitis and acute anterior uveitis.jpeg by Eisa Mahyari (9681962)

“…Using cellular indexing of transcriptomes and epitopes (CITE-Seq) in a well-characterized cohort of 25 subjects—including AS (HLA-B27^pos), AS+AAU (HLA-B27^pos), AAU (HLA-B27^pos), HCs (HLA-B27^pos), and HCs (HLA-B27^neg); N = 5/group—we identified transcriptomic differences at the single-cell level, along with differentially expressed cell surface markers. …”

Image 4_Divergent B-cell and cytotoxic TNK cell activation signatures in HLA-B27-associated ankylosing spondylitis and acute anterior uveitis.jpeg by Eisa Mahyari (9681962)

“…Using cellular indexing of transcriptomes and epitopes (CITE-Seq) in a well-characterized cohort of 25 subjects—including AS (HLA-B27^pos), AS+AAU (HLA-B27^pos), AAU (HLA-B27^pos), HCs (HLA-B27^pos), and HCs (HLA-B27^neg); N = 5/group—we identified transcriptomic differences at the single-cell level, along with differentially expressed cell surface markers. …”

Qatar’s immigrants at higher risk of diabetes by Nature Research (16552612)

“…Those of South Asian descent had a 13-fold increased risk of having elevated glycated haemoglobin levels, and Filipinos a 4.5-fold increase, compared to the native Arab population. …”

Image 8_Divergent B-cell and cytotoxic TNK cell activation signatures in HLA-B27-associated ankylosing spondylitis and acute anterior uveitis.jpeg by Eisa Mahyari (9681962)

“…Using cellular indexing of transcriptomes and epitopes (CITE-Seq) in a well-characterized cohort of 25 subjects—including AS (HLA-B27^pos), AS+AAU (HLA-B27^pos), AAU (HLA-B27^pos), HCs (HLA-B27^pos), and HCs (HLA-B27^neg); N = 5/group—we identified transcriptomic differences at the single-cell level, along with differentially expressed cell surface markers. …”

Video_2_An immunoresponsive three-dimensional urine-tolerant human urothelial model to study urinary tract infection.mp4 by Nazila V. Jafari (7319306)

DataSheet_1_An immunoresponsive three-dimensional urine-tolerant human urothelial model to study urinary tract infection.docx by Nazila V. Jafari (7319306)