Project description:Discovery of genes driving axolotl limb regeneration has been challenging due to limited genomic resources. We assembled 42 RNA-Seq samples totaling approximately 1.3 billion 100 base paired-end reads using Trinity (Grabherr M.G. et al, Nature Biotechnology, 2011; Haas B.J. et al, Nature Protocols, 2013): https://github.com/trinityrnaseq/trinityrnaseq/wiki). We created a transcriptome with complete sequence information for most axolotl genes, identified transcriptional profiles that distinguish blastemas from differentiated limb tissues, and uncovered functional roles for cirbp and kazald1 in limb regeneration.
Project description:Here we compare the transcriptional profile during the differentiation of hESC into neuroepithelial cells (NSB) (Chambers et. al 2009 Nature Biotechnology) with our new placode differentiation (PIP).
2013-12-04 | GSE51533 | GEO
Project description:Chevrette et al 2019 Nature Communications
Project description:After 8 days of OKSM induction via doxycycline, Nanog-Neo secondary MEFs (Wernig et al. Nature Biotechnology 2008) were FACS sorted by KLF4, Oct4, and EpCAM expression. Four major subsets of MEFs have been sorted and analysed for gene expression.
Project description:Here we compare the transcriptional profile of neural crest cells differentiated on MS5 feeder cells (Lee et al., 2007 Nature Biotechnology) with neural crest cells differentiated in a feeder-free protocol. As controls, neuroepithelial cells (LSB) and wnt-induced neural crest cells were included.
Project description:CD47 is a transmembrane glycoprotein that is ubiquitously expressed in different organs and tissues (Barclay and Van den Berg 2014; Liu, et al. 2017). In the human immune system, CD47 interacts with some integrins, two counter-receptor signal regulator protein (SIRP) family members, and the secreted thrombospondin-1 (TSP1) (Barclay and Van den Berg 2014; Gao, et al. 2016; Kaur, et al. 2013; Oldenborg, et al. 2000). CD47 has two established roles in the immune system. The CD47-SIRPα interaction was identified as a critical innate immune checkpoint, which delivers an antiphagocytic signal to macrophages and inhibits neutrophil cytotoxicity (Martínez- Sanz, et al. 2021). Its interaction with inhibitory SIRPα is a physiological anti-phagocytic “don’t eat me” signal on circulating red blood cells that is co-opted by cancer cells (Matlung, et al. 2017). Many malignant cells overexpress CD47 (Betancur, et al. 2017; Chao, et al. 2011; Jaiswal, et al. 2009; Majeti, et al. 2009; Oronsky, et al. 2020; Petrova, et al. 2017). CD47/SIRPα-targeted therapeutics have been developed to overcome this immune checkpoint for cancer treatment (Kaur, et al. 2020; Matlung, et al. 2017). Secondly, engagement of CD47 on T cells by TSP1 regulates their differentiation and survival (Grimbert, et al. 2006; Lamy, et al. 2007) and inhibits T cell receptor signaling and antigen presentation by dendritic cells (DCs) (Kaur, et al. 2014; Li, et al. 2002; Liu, et al. 2015; Miller, et al. 2013; Soto-Pantoja, et al. 2014; Weng, et al. 2014). TSP1/CD47 signaling has similar inhibitory functions to limit NK cell activation (Kim, et al. 2008; Nath, et al. 2018; Nath, et al. 2019; Schwartz, et al. 2019) and IL1β production by macrophages (Stein, et al. 2016). CD47 is therefore a checkpoint that regulates both innate and adaptive immunity. The recent understanding of CD47 antagonism associated with increased antigen presentation by DCs (Liu, et al. 2016) and natural killer cell cytotoxicity (Nath, et al. 2019) contributes to the heightened interest in CD47 as a therapeutic target (Kaur, et al. 2020).
Project description:a synthetic community of 34 bacteria, colonizing arabidopsis roots (Castrillo et al., 2017; Teixeira et al., 2021). Raw sequence reads
Project description:Construction of Parallel analysis of RNA ends (PARE) libraries was done as described by German et al., 2009. Raw reads consisting of short sequences of 16 to 21 nts after MmeI digestion.
Project description:RNA was isolated from HLEC, HAEC, HMVEC and HUVEC cells. Sequencing was performed on the NextSeq500 instrument (Illumina). Processing of raw reads was performed as previously described (Zhang T et al., 2015)
Project description:Swiss murine embryonic fibroblasts (NIH-3T3) were infected with wild-type Smith strain mouse cytomegalovirus (MCMV) at a multiplicity of infection (MOI) of 10. Metabolic RNA labelling was performed using 400µM 4sU for one hour prior to cell lysis. Total RNA was isolated using the Trizol protocol and U-to-C conversions were induced by IAA treatment according to the SLAM-seq protocol (Herzog et al., Nature Methods 2017). Sequencing libraries were prepared using the dRNA-seq protocol from the indicated time points of infection as described by Whisnant A.W. et al, Nat. Commun (2020).