PRH Protein Role in Cell Regulation Schematic Diagram

Schematic of PRH function in cell regulation. Central 'PRH' with arrows pointing to various components. Include labels for CCLP Tumor Cell and cell cycle regulation. Highlight potential dysregulation.
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PRH Protein Role in Cell Regulation Schematic Diagram and Related Flux Artwork

Illustrates signaling pathways involved in protecting retinal cells from oxidative stress. Nrf2 is central to pathways modulated by anthocyanins. Highlights key enzymes HO-1, SOD, CAT, GSH-PX with apoptotic modulation. Mainly focuses on antioxidant mechanisms.
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Signaling Pathways in Nrf2 Modulation for Retinal Protection Against Oxidative Stress by Anthocyanins

Nrf2 pathway
retinal protection
oxidative stress
Diagram showing the relationship between TCR and IL12 in initiating Glycolysis. Glycolysis sub-pathway produces O-GlcNAc on STAT1 at Ser499 and Thr510. Resulting stable pSTAT1 Ser727 increases IFNgamma. Glycolysis also activates pSTAT1 Tyr701. pSTAT1 Tyr701 triggers T-Bet activation and production of IFNgamma. pSTAT1 Tyr701 leads to Th1 differentiation while pSTAT1 Ser727 supports Th1 lineage stability.
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Biochemical Pathway Diagram: TCR and IL12 Induced Glycolysis and STAT1 Modifications

immune response
biochemical pathway
Glycolysis
This image depicts pancreatic beta cells, characterized by their pink, fluffy appearance, which are being shielded from cytokine-induced inflammation. The cells are surrounded by smaller structures that represent cytokines or inflammatory markers. Glowing orange highlights are illustrated within the cells to signify activity or protection by HDAC inhibitors. The dark blue background enhances the contrast, emphasizing the primary subjects. This visual serves as an educational representation of the cellular interactions relevant to diabetes treatment and research.
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Protective Role of HDAC Inhibitors in Pancreatic Beta Cells Against Cytokine Induced Inflammation

biotechnology
pancreatic beta cells
HDAC inhibitors
create a scientific illustration of Deucravacitinib depicting cellular interactions with labeled elements
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Scientific Illustration of Deucravacitinib Mechanism Depicting Cellular Interactions

biotechnology
Deucravacitinib illustration
Biological process diagram
Illustration depicting leukocyte-endothelial interactions. It shows leukocyte rolling, stable arrest, and transmigration into tissues. The diagram includes representations of selectin and integrin interactions. The context involves immune response and inflammation mechanisms.
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Leukocyte-Endothelial Interactions and Recruitment into Tissues Diagram

cell migration
inflammation
immune system illustration
The figure illustrates the innate immune response to infection through a centralized sun-like figure highlighting activation, recruitment, and control. It outlines how the immune response is activated, identifying tissue-associated immune cells nearby for rapid response. It also describes inflammatory mediators secreted upon infection. The outer sections detail the recruitment of cellular and non-cellular immune components to the infection site. Additionally, it covers the physiological changes allowing immune cell trafficking and the control mechanisms involving immune cells that eliminate microbes. Fate signaling for epithelial cells and clearance of dead cells are also summarized.
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Illustration of the Innate Immune Response to Infection: Activation, Recruitment, and Control

innate immune response
activation
immune cells
This image showcases a laboratory setting with a microscope at the center. Droplets of vibrant blue and purple are scattered across the table, illuminated by soft light. A drop is being carefully placed under the microscope, emphasizing the precision needed in scientific research. The environment conveys a sense of advanced biotechnology and innovation. This scene could reflect the use of CRISPR tools in CAR T-cell therapy, highlighting modern techniques in genetic modification for medical advances.
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CRISPR Tools in CAR T-Cell Therapy: Exploring Biotechnology Laboratory Techniques

biotechnology
microscope
scientific research
Schematic representation of biochemical pathways involving cyanidin-3-glucoside. Illustrate effects on cells and metabolic processes. Show interactions and transformations clearly.
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Biochemical Pathways of Cyanidin-3-Glucoside and Its Effects on Cells

Health benefits
Nutrition
cyanidin-3-glucoside
Schematic diagram showing the Circular Flow Model for the GENESIS-PGx Project. Key components include Research and Innovation, Healthcare Providers, Patients, Policymakers, and Industry. Each component has inputs, processes, and outputs that illustrate the model's function.
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Circular Flow Model for GENESIS-PGx Project: A Comprehensive Overview

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Illustration features two panels labeled Male and Female. Each panel shows synaptic structures with specific components and pathways. Male panel highlights BDNF release and multiple pathways. Female panel presents similar structure with alternative pathways. Use professional color palette and clear labels. Maintain high resolution for dissertation.
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Sex-Specific BDNF-TrkB Signaling Impact on Exercise and Cocaine-Seeking Behavior

synchronized illustration
male and female comparison
exercise impact on cocaine-seeking
Illustration shows glass bottles filled with pills on conveyor. Cartoon box contains more pills. Terahertz photocell inspects items. Conveying system highlighted.
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Pharmaceutical Conveyor System: Terahertz Photocell Inspection of Pill Packaging

Healthcare Innovation
pharmaceutical conveyor
pill inspection technology
3D illustration of a virus with pink and purple spikes. Focus on viral structure and details against a dark background.
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3D Illustration of Treg Cells and Viral Structures in Immunology

immune response
biotechnology
Healthcare graphics
schematic diagram
minimalist design
PRH protein
cell regulation
tumor cell
cell cycle
mitotic index
DNA interaction
biological functions
protein role
cell therapy
Charizard
Disease mechanism
PRH and its role in cell regulation