Project description:Bacteria were washed three times in NaCl (150 mM). Cells were resuspended in 1 ml TSU buffer (50 mM Tris pH 8.0, 0.1% SDS, 2.5 M urea) and lysed by two freeze-thaw cycles in liquid nitrogen. Lysate proteins (40 ug) were separated and digested. Digested peptides were separated by nano-LC using an Ultimate 3000 HPLC and autosampler system (Dionex; Amsterdam, Netherlands). Samples (1 ul) were concentrated and desalted onto a micro C18 pre-column (500 um×2 mm, Michrom Bioresources; Auburn, CA, USA) with H2O:CH3CN (98:2, 0.05% trifluoroacetic acid) at 15 ul min−1. After a 4 min wash the pre-column was switched (Valco 10 port valve; Dionex) into line with a fritless nano column (75 u×~10 cm) containing C18 media (5 u, 200 A Magic; Michrom) manufactured according to Gatlin. Peptides were eluted using a linear gradient of H2O:CH3CN (98:2, 0.1% formic acid) to H2O:CH3CN (64:36, 0.1% formic acid) at 250 nl min−1 over 30 min. High voltage (2000 V) was applied to low volume tee (Upchurch Scientific) and the column tip positioned ~0.5 cm from the heated capillary (T = 280 degrees C) of an Orbitrap Velos (Thermo Electron; Bremen, Germany) mass spectrometer. Positive ions were generated by electrospray and the Orbitrap operated in data dependent acquisition mode (DDA). A survey scan m/z 350–1750 was acquired in the Orbitrap (Resolution = 30,000 at m/z 400, with an accumulation target value of 1,000,000 ions) with lockmass enabled. Up to the 10 most abundant ions (>5,000 counts) with charge states >+2 were sequentially isolated and fragmented within the linear ion trap using collisionally induced dissociation with an activation q = 0.25 and activation time of 30 ms at a target value of 30,000 ions. M/z ratios selected for MS/MS were dynamically excluded for 30 s. Peak lists were generated using Mascot Daemon/extract_msn (Matrix Science, Thermo; London, England) using the default parameters, and submitted to the database search program Mascot (version 2.1, Matrix Science). Search parameters were: Precursor tolerance 4 ppm and product ion tolerances +/-0.4 Da; Oxidation (M) and Carbamidomethyl (C) specified as variable modifications, Enzyme specificity was trypsin, 1 missed cleavage was possible

Project description:Washed three times in NaCl (150 mM). Cells were resuspended in 1 ml TSU buffer (50 mM Tris pH 8.0, 0.1% SDS, 2.5 M urea) and lysed by two freeze-thaw cycles in liquid nitrogen. Lysate proteins (40 ug) were separated and digested. Digested peptides were separated by nano-LC using an Ultimate 3000 HPLC and autosampler system (Dionex; Amsterdam, Netherlands). Samples (1 ul) were concentrated and desalted onto a micro C18 pre-column (500 um×2 mm, Michrom Bioresources; Auburn, CA, USA) with H2O:CH3CN (98:2, 0.05% trifluoroacetic acid) at 15 ul min−1. After a 4 min wash the pre-column was switched (Valco 10 port valve; Dionex) into line with a fritless nano column (75 u×~10 cm) containing C18 media (5 u, 200 A Magic; Michrom) manufactured according to Gatlin. Peptides were eluted using a linear gradient of H2O:CH3CN (98:2, 0.1% formic acid) to H2O:CH3CN (64:36, 0.1% formic acid) at 250 nl min−1 over 30 min. High voltage (2000 V) was applied to low volume tee (Upchurch Scientific) and the column tip positioned ~0.5 cm from the heated capillary (T = 280 degrees C) of an Orbitrap Velos (Thermo Electron; Bremen, Germany) mass spectrometer. Positive ions were generated by electrospray and the Orbitrap operated in data dependent acquisition mode (DDA). A survey scan m/z 350–1750 was acquired in the Orbitrap (Resolution = 30,000 at m/z 400, with an accumulation target value of 1,000,000 ions) with lockmass enabled. Up to the 10 most abundant ions (>5,000 counts) with charge states >+2 were sequentially isolated and fragmented within the linear ion trap using collisionally induced dissociation with an activation q = 0.25 and activation time of 30 ms at a target value of 30,000 ions. M/z ratios selected for MS/MS were dynamically excluded for 30 s. Peak lists were generated using Mascot Daemon/extract_msn (Matrix Science, Thermo; London, England) using the default parameters, and submitted to the database search program Mascot (version 2.1, Matrix Science). Search parameters were: Precursor tolerance 4 ppm and product ion tolerances +/-0.4 Da Oxidation (M) and Carbamidomethyl (C) specified as variable modifications Enzyme specificity was trypsin, 1 missed cleavage was possible

Project description:The experiment was performed to identify autophagy targets in wildtype and autophagy-deficient forebrain excitatory neurons. Therefore, neurons were isolated from the cortex, hippocampus and striatum of 2-3 weeks old Atg5flox/flox:CamKIIα-Cretg/wt:tdTomato+ (KO) and Atg5wt/wt:CamKIIα-Cretg/wt:tdTomato+ (WT) mice. Neurons in suspension were FACS sorted and excitatory forebrain neurons expressing tdTomato were forwarded to global proteome analysis assessed by LC-MS/MS.

Project description:The experiment was performed to identify autophagy targets in wildtype and autophagy-deficient forebrain inhibitory neurons. Therefore, neurons were isolated from the cortex, hippocampus and striatum of 2-3 weeks old Atg5flox/flox:Slc32a1-Cretg/wt:tdTomato+ (KO) and Atg5wt/wt:Slc332a1-Cretg/wt:tdTomato+ (WT) mice. Neurons in suspension were FACS sorted and inhibitory forebrain neurons expressing tdTomato were forwarded to global proteome analysis assessed by LC-MS/MS.

Project description:To investigate the mechanisms that underlie astrocyte dedifferentiation, we performed single cell RNA sequencing analysis of tdTomato+ astrocyte derived cells approx 1 year after stab-wound injury. 2-3 month old GFAP-CreERT2;p53flox/flox;LSL-tdTomato (p53Gfap-icKO) mice were subjected to intracortical endoxifen injection to enable deletion of p53 gene and simultaneous expression of tdTomato for fate-mapping specifically in astrocytes (GFAP+) in the context of a stab-wound injury. GFAP-CreERT2;p53wt/wt;LSL-tdTomato (p53Gfapwt/wt) mice were used as control whereby p53 remains fate-mapped tdTomato+ astrocytes remain p53 wildtype after endoxifen injection. Approx 10-12 months after injury, mice were sacrificed and the peri-wound region was dissected. Mice of the same genotypes were pooled (3 p53Gfap-icKO and 2 p53Gfapwt/wt) and digested using the Miltenyi Adult brain dissociation kit. Single cell suspension was FACS sorted for tdTomato+ cells into 384 well plates and then Smartseq3 libraries were generated.

Project description:Wild-type (N2) and tps1;tps2 double mutant embryos were resuspended at 1 embryo/uL in S-basal with or without 50mM trehalose. Samples were collected after 24 hours after bleach as L1 larvae

Project description:Purpose: We aimed to link different variations of memory B cell subsets to their proliferating precursors via shared transcriptomic features. Methods : Spleens were processed according to the manuscript. Cells were collected via FACS, washed twice in PBS + 1% FCS, resuspended in 350 ul RLT Plus Buffer (Qiagen) with 1% 2-Me, and frozen at -80 ⁰C. Results: Memory cells have many DEGs in comparison to FO naïve cells. However, differences between memory cells themselves can be attributed to imprinting by their respective proliferating precursors. DP MBCs are split into two major subsets based on transcriptional state. A germinal center B cell program may be required to establish some DEGs in GC-derived memory cells.

Project description:In order to assess the descendants of lateral plate mesoderm within the muscle interstitium, we utilized Prrx1Cre;Rosa26-tdTomato P21 tdTomato+ FACS sorted muscle interstitial cells

Project description:KLB-Cre mice were crossed to Ai14 mice to label KLB-expressing cells with tdTomato. The basolateral amygdala was then dissected out and tdTomato positive cells were isolated using FACs sorting. FACs sorted cells were then captured for single cell RNA sequencing analysis using the BD Rhapsody Whole Transcriptome Analysis kit.

Project description:We isolated and selected intestinal adenoma organoids from Apcmin/+; Rosa26LSL-TdTomato; Prox1-CreERT2 mice. After the selection procedure without growth factors, we induced CreERT2 activity and the transcription of tdTomato to label Prox1+ cells by 300 nM 4-hydroxytamoxifen for 16h. tdTomato+ (Prox1+) and tdTomato- cells (enriched for Prox1- cells) were FACS sorted and total RNA was isolated.