Project description:The TNF superfamily is large, including TNF ligands (n = 19) and TNF receptors (n = 29),as determined following the completion of large-scale sequencing of the human and mouse genomes. These members not only function in immune cells but are also involved in respiratory and intestinal diseases, and some members may act as a double-edged sword. Tumor necrosis factor-like cytokine 1A (TL1A, also known as TNFSF15) is the only known death receptor 3 (DR3, also known as TNFRSF25) ligand (Meylan et al., 2011). The TL1A/DR3 axis plays a role in the regulation of intestinal immunity and fibrosis (Valatas et al., 2019), asthma airway remodeling (Zhang et al., 2022; Herro et al., 2010), and other autoimmune and inflammatory diseases (Herro et al., 2021), exacerbating disease progression. However, some researchers have proposed that the TL1A/DR3 axis has a protective role in some disease models. A novel role for TL1A/DR3 in protection against intestinal injury was reported by Jia et al (Jia et al., 2016). Yang et al. revealed a protective effect of TL1A against intracerebral hemorrhage-induced secondary brain injury and infection (Yang et al., 2021). In addition, TL1A maintains the blood–retinal barrier by modulating SHP-1-Src-VE-cadherin signaling in diabetic retinopathy, as verified by Li et al (Li et al., 2021). However, the role of TL1A/DR3 in ARDS has not been explored.
2023-04-22 | PXD039909 |
Project description:Freeman et al. (2021) Sequencing Data
Project description:Strains: non-producing refernece strain pXMJ19 (CR099 pXMJ19; Goldbeck et al., 2021) and Pediocin-producer pxMJ19 ped (CR099 pXMJ19 Ptac pedACDCg, Goldbeck et al., 2021) Pediocin-producing and non-producing strains of Corynebacterium glutamicum were compared in a whole genome microarray analysis setup in order to identify potential strain optimization targets
2023-03-08 | GSE220713 | GEO
Project description:Ye et al 2021 Cytokinin-LBD paper
| PRJNA684618 | ENA
Project description:Sequencing Data Klompe et al. 2021 Molecular Cell
Project description:While DNA methylation is an important gene regulatory mechanism in mammals (Razin and Riggs 1980; Moore, Le, and Fan 2013), its function in arthropods remains poorly understood. Studies in eusocial insects have argued for its role in caste development by regulating gene expression and splicing (Elango et al. 2009; Lyko et al. 2010; Bonasio et al. 2012; Flores et al. 2012; Foret et al. 2012; Li-Byarlay et al. 2013; Marshall, Lonsdale, and Mallon 2019; Shi et al. 2013)(Alvarado et al. 2015; Kucharski et al. 2008). However, such findings are not always consistent across studies, and have therefore remained controversial (Arsenault, Hunt, and Rehan 2018; Cardoso-Junior et al. 2021; Harris et al. 2019; Herb et al. 2012; Libbrecht et al. 2016; Oldroyd and Yagound 2021b; Patalano et al. 2015). Here we use CRISPR/Cas9 to mutate the maintenance DNA methyltransferase DNMT1 in the clonal raider ant, Ooceraea biroi. Mutants have greatly reduced DNA methylation but no obvious developmental phenotypes, demonstrating that, unlike mammals (Brown and Robertson 2007; En Li, Bestor, and Jaenisch 1992; Jackson-Grusby et al. 2001; Panning and Jaenisch 1996), ants can undergo normal development without DNMT1 or DNA methylation. Additionally, we find no evidence of DNA methylation regulating caste development. However, mutants are sterile, while in wildtypes, DNMT1 is localized to the ovaries and maternally provisioned into nascent oocytes. This supports the idea that DNMT1 plays a crucial but unknown role in the insect germline (Amukamara et al. 2020; Arsala et al. 2021; Bewick et al. 2019; Schulz et al. 2018; Ventós-Alfonso et al. 2020; Washington et al. 2020).
Project description:We applied sRNA-seq to excised hypocotyls of etiolated Arabidopsis seedlings 2 days after exposure of germinating seedling to UV-B. Please cite: Dukowic-Schulze, Harvey, Garcia, Chen, Gardner et al. (exp.2021)
Project description:By using high-density DNA microarrays, we analyzed the gene-expression profile of liver biopsies from pigs Brückner et al. 2021 published
Project description:To comprehensively define the potential plant SWI/SNF sub-complexes and their subunits organization, we started by performing immuno-purification followed by mass spectrometry analysis (IP-MS) using stable transgenic Arabidopsis lines that expressed a green fluorescent protein (GFP)-tagged ATPase subunit, BRM (Li et al., 2016), SYD (Shu et al., 2021) or MINU2 (this study), driven by its native promoter in corresponding null mutant background.