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Illustration from the epigenetics and the genome infographic
Infographic: How Epigenetic Marks Can Change the Genome
Although epigenetic changes were long thought to largely act on the genome, rather than as part of it, research is now showing that these patterns can, directly or indirectly, change the genetic code.
Infographic: How Epigenetic Marks Can Change the Genome
Infographic: How Epigenetic Marks Can Change the Genome

Although epigenetic changes were long thought to largely act on the genome, rather than as part of it, research is now showing that these patterns can, directly or indirectly, change the genetic code.

Although epigenetic changes were long thought to largely act on the genome, rather than as part of it, research is now showing that these patterns can, directly or indirectly, change the genetic code.

Infographics

3D imaging of organoid
Infographic: Generating Hundreds of 3D Organoid Images per Hour
Natalia Mesa, PhD | Oct 17, 2022 | 1 min read
By modifying a technique used to image single cells, researchers have managed to generate a super-resolution 3D image of a complete organoid in just seven seconds.
Illustration showing the path result of Eukaryogenesis
Infographic: Evolutionary Leaps Leading to Modern Eukaryotes
Amanda Heidt | Oct 17, 2022 | 2 min read
A lot happened in the hundreds of millions years separating the first and last eukaryotic common ancestors, but when and how most features arose remains a mystery.
Learn How Cutting-Edge Science is Breaking Through Industry Barriers
Focus on Innovation: Scientific Advances Driving Biopharma Market Trends
The Scientist’s Creative Services Team and Tecan | 1 min read
Explore the future of biopharma research and development.
Illustration of a Hawaiian Bobtail squid
Infographic: Symbiotic Organs Bring Hosts and Microbes Closer
Catherine Offord | Oct 3, 2022 | 2 min read
Specialized structures in plants and animals help attract and mediate communication with bacterial symbionts.
Genetic knockout experiments reveal a role for the protein in forming and maintaining synapses between motor neurons and muscle fibers in mice.
Infographic: Vangl2 in Muscles Keeps Neuromuscular Junctions Organized
Catherine Offord | Sep 12, 2022 | 1 min read
Genetic knockout experiments reveal a role for the protein in forming and maintaining synapses between motor neurons and muscle fibers in mice.
Explore the importance of cellular diversity in health and disease through single cell resolution.
Single Cell Resolution Reveals Cellular Diversity
The Scientist’s Creative Services Team and 10x Genomics | 1 min read
Access to single cell resolution reveals new insights into how the human body and its cells operate during health and disease.
Illustration of RNAs
Infographic: Noncoding RNA in the Brain
Christie Wilcox, PhD | Sep 12, 2022 | 4 min read
Neurologically important noncoding RNAs come in many shapes and sizes.
Illustration showing assembly Versus Alignment
Infographic: The Sequencing and Assembly of the Human Genome
Brianna Chrisman and Jordan Eizenga | Sep 1, 2022 | 5 min read
With ever-advancing genetic technologies, researchers continue to document the genetic code of the human species.
Learn How the Immune System Can Be Trained to Overcome Food Allergies
Retraining the Immune System Cavalry for Food Allergen Peacekeeping Missions
The Scientist’s Creative Services Team | 1 min read
Explore food allergy immunotherapy for reversing patient symptoms.
Illustration of the cerebellum 
Infographic: The Cerebellum’s Many Roles Beyond Motor Control
Diana Kwon | Aug 15, 2022 | 2 min read
Researchers have discovered that the small structure is involved in language, emotion, and many other high-order brain processes.
To flag neurons that have experienced genotoxic stress, researchers developed an in vivo sensor using an adeno-associated viral vector, called PRISM. Because a cell’s DNA damage response (DDR)—which activates in response to stressors such as environmental toxins or the buildup of misfolded proteins—also responds to invading pathogens, PRISM has an easier time transfecting cells whose damage response mechanisms are preoccupied with existing DNA damage. Once inside, the virus hijacks the neuron’s DNA replication machinery, which reverts an engineered frameshift mutation in the virus and thereby prompts the production of a fluorescent protein that can be observed via microscopy.
Infographic: DNA Damage Viewed with Unprecedented Clarity
Amanda Heidt | Aug 15, 2022 | 2 min read
A new genetic sensor called PRISM makes use of a host cell’s DNA replication machinery to trigger fluorescence in neurons with damaged DNA.
The Mosaic Brain
Sejal Davla, PhD | 1 min read
How somatic mutations cause brain diseases
Infographic showing how neurodegenerative diseases have long been associated with aggregations of apparently toxic proteins
Infographic: Secret Lives of Neurodegeneration-Linked Proteins
Catherine Offord | Aug 1, 2022 | 5 min read
Maligned peptides such as the Alzheimer’s-associated amyloid precursor protein may have critical roles in the healthy brain.
Caulobacter crescentus, concentrating DivJ
Infographic: Nutrient Scarcity Drives Phase Separation in Bacteria
Viviane Callier | Jul 18, 2022 | 1 min read
When the bacterium Caulobacter crescentus runs low on fuel, it can still replicate by clustering its remaining ATP around the cell division enzyme DivJ.
Linking Biological Clocks and Cancer Therapeutics to Minimize Toxicity
It’s All in the Timing: Optimizing Chemotherapy Administration
Sejal Davla, PhD | 1 min read
How the biological clock influences chemotherapy success
Illustration of creatures from today’s crisis
Infographic: A Look at the Big Five Mass Extinctions
Katarina Zimmer | Jul 18, 2022 | 4 min read
Extinction is a natural part of life on Earth. But occasionally, extinction rates have surged far beyond usual levels, driving mass extinction events that have reshaped the trajectory of life.
Illustration of a DNA virus sneaking genetic material into a host’s nucleus
Infographic: Possible Mechanisms of Gene Transfer in Eukaryotes
Christie Wilcox, PhD | Jul 5, 2022 | 6 min read
Genetic studies have made it clear that eukaryotic horizontal gene transfer can and does happen. Exactly how, though, remains speculative.
Learn How to Accurately Determine Protein Conformation
Focus on Structure to Verify Protein Function
The Scientist’s Creative Services Team and RedShift Bio | 1 min read
Scientists analyze a therapeutic protein’s secondary structure to confirm drug efficacy and safety.
Two prime editing guide RNAs (pegRNAs), deliver Cas9 enzymes to targeted regions of the genome.
Infographic: Two Guide RNAs Make for Large, Stable Insertions
Dan Robitzski | Jun 13, 2022 | 1 min read
A new technique goes beyond CRISPR and writes two complementary strands of DNA directly into the genome.
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