scholarly article | Q13442814 |
P50 | author | Yasser A Ahmed | Q60329586 |
Christian H Holland | Q89684581 | ||
Rolf Gebhardt | Q99628521 | ||
Julio Saez-Rodriguez | Q41044850 | ||
Ahmed Ghallab | Q43208341 | ||
P2093 | author name string | Christian Trautwein | |
Jan G Hengstler | |||
Dirk Drasdo | |||
Maximilian Hatting | |||
Marie-Luise Berres | |||
Reham Hassan | |||
Jörg Reinders | |||
Walaa Murad | |||
Madlen Matz-Soja | |||
Kai Markus Schneider | |||
Maiju Myllys | |||
Ayham Zaza | |||
Eman A Abdelrahim | |||
Tahany Abbas | |||
P2860 | cites work | Sushi domain-containing protein 4 (SUSD4) inhibits complement by disrupting the formation of the classical C3 convertase | Q24328755 |
edgeR: a Bioconductor package for differential expression analysis of digital gene expression data | Q27860819 | ||
Modern pathogenetic concepts of liver fibrosis suggest stellate cells and TGF-beta as major players and therapeutic targets | Q28303698 | ||
limma powers differential expression analyses for RNA-sequencing and microarray studies | Q29617988 | ||
The olfactomedin domain from gliomedin is a β-propeller with unique structural properties. | Q30369977 | ||
Prediction and validation of cell alignment along microvessels as order principle to restore tissue architecture in liver regeneration | Q30495068 | ||
Optimality in the zonation of ammonia detoxification in rodent liver. | Q51697079 | ||
Mathematical modelling of liver regeneration after intoxication with CCl(4). | Q51916990 | ||
Bile micro-infarcts in cholestasis are initiated by rupture of the apical hepatocyte membrane and cause shunting of bile to sinusoidal blood | Q57111980 | ||
Burden of liver disease in Europe: Epidemiology and analysis of risk factors to identify prevention policies | Q57164796 | ||
Liver fibrosis: Which mechanisms matter? | Q62734673 | ||
BioJupies: Automated Generation of Interactive Notebooks for RNA-Seq Data Analysis in the Cloud | Q64121144 | ||
Update on the human and mouse lipocalin (LCN) gene family, including evidence the mouse Mup cluster is result of an "evolutionary bloom" | Q64260258 | ||
Iroquois Homeodomain transcription factors in ventricular conduction system and arrhythmia. | Q64938031 | ||
Liver Zonation in Health and Disease: Hypoxia and Hypoxia-Inducible Transcription Factors as Concert Masters. | Q64968927 | ||
The enterohepatic circulation of urea nitrogen | Q71269450 | ||
Differential gene expression in periportal and perivenous mouse hepatocytes | Q79282635 | ||
Transfer of regulatory knowledge from human to mouse for functional genomics analysis | Q90124844 | ||
Spatio-temporal visualization of the distribution of acetaminophen as well as its metabolites and adducts in mouse livers by MALDI MSI | Q90433800 | ||
The pyrrolizidine alkaloid senecionine induces CYP-dependent destruction of sinusoidal endothelial cells and cholestasis in mice | Q90673668 | ||
Hepatic heparan sulfate is a master regulator of hepcidin expression and iron homeostasis in human hepatocytes and mice | Q91966980 | ||
[8. Image Processing Using ImageJ] | Q92057467 | ||
Benchmark and integration of resources for the estimation of human transcription factor activities | Q92152603 | ||
A step-by-step workflow for low-level analysis of single-cell RNA-seq data with Bioconductor. | Q31146507 | ||
Functional contribution of elevated circulating and hepatic non-classical CD14CD16 monocytes to inflammation and human liver fibrosis | Q33604746 | ||
Aberrant expression and distribution of enzymes of the urea cycle and other ammonia metabolizing pathways in dogs with congenital portosystemic shunts | Q33778949 | ||
Liver zonation: Novel aspects of its regulation and its impact on homeostasis | Q33886995 | ||
The immunoglobulin heavy chain locus: genetic variation, missing data, and implications for human disease | Q34253950 | ||
Sexual dimorphisms in zonal gene expression in mouse liver | Q34780975 | ||
NF-κB in the liver--linking injury, fibrosis and hepatocellular carcinoma | Q35808323 | ||
Primary hepatocytes: current understanding of the regulation of metabolic enzymes and transporter proteins, and pharmaceutical practice for the use of hepatocytes in metabolism, enzyme induction, transporter, clearance, and hepatotoxicity studies. | Q36761687 | ||
Recent advances in 2D and 3D in vitro systems using primary hepatocytes, alternative hepatocyte sources and non-parenchymal liver cells and their use in investigating mechanisms of hepatotoxicity, cell signaling and ADME. | Q37121662 | ||
Functional characterization of somatic mutations in cancer using network-based inference of protein activity | Q37292348 | ||
Pathogenesis of liver fibrosis | Q37809079 | ||
Update on hepatic stellate cells: pathogenic role in liver fibrosis and novel isolation techniques | Q37965682 | ||
The ascending pathophysiology of cholestatic liver disease. | Q39040911 | ||
Gene network activity in cultivated primary hepatocytes is highly similar to diseased mammalian liver tissue | Q39658669 | ||
Model-guided identification of a therapeutic strategy to reduce hyperammonemia in liver diseases | Q40881866 | ||
Physiologically-based modelling in mice suggests an aggravated loss of clearance capacity after toxic liver damage | Q41109384 | ||
Cholestasis-induced adaptive remodeling of interlobular bile ducts | Q41477905 | ||
Adverse outcome pathways: opportunities, limitations and open questions | Q42307037 | ||
Single-cell spatial reconstruction reveals global division of labour in the mammalian liver | Q42320342 | ||
Spontaneous cholecysto- and hepatolithiasis in Mdr2-/- mice: a model for low phospholipid-associated cholelithiasis. | Q44749286 | ||
Integrated metabolic spatial-temporal model for the prediction of ammonia detoxification during liver damage and regeneration | Q46550945 | ||
A frequent misinterpretation in current research on liver fibrosis: the vessel in the center of CCl4-induced pseudolobules is a portal vein | Q46907265 | ||
Perturbation-response genes reveal signaling footprints in cancer gene expression | Q48319034 | ||
Effect of reducing brain glutamine synthesis on metabolic symptoms of hepatic encephalopathy | Q48324424 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P4510 | describes a project that uses | ImageJ | Q1659584 |
limma | Q112236343 | ||
edgeR | Q113334690 | ||
P433 | issue | 12 | |
P577 | publication date | 2019-12-02 | |
P1433 | published in | Cells | Q27724621 |
P1476 | title | Influence of Liver Fibrosis on Lobular Zonation | |
P478 | volume | 8 |
Q102059001 | Comparing distress of mouse models for liver damage |
Q90478256 | Concomitant inflammation/metabolism transcriptional regulatory networks in liver disease |
Q92644459 | Liver fibrosis causes periportalization of lobular zonation |
Q91634646 | PPARG as therapeutic target for antifibrotic therapy |
Q99634252 | The Genetic Architecture of Carbon Tetrachloride-Induced Liver Fibrosis in Mice |
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