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infectious disease

The figure shows two waves made of DNA double helixes representing gene expression changes in the malaria parasite and its human host. These changes reveal a synchronization between parasite and host.

Malaria Parasites Sync with Hosts’ Molecular Rhythms

Mariella Bodemeier Loayza Careaga, PhD | Sep 1, 2023 | 2 min read

Evidence of malaria parasites aligning with their human hosts may pave the way for new antimalarial agents.

Antimicrobial Resistance: The Silent Pandemic

Danielle Gerhard, PhD | Jun 30, 2023 | 9 min read

Scientists continue to ring alarm bells about the risks associated with the continued misuse of antimicrobials and advocate for innovative treatments, improved surveillance, and greater public health education.

Leveraging Stem Cells to Create Better Disease Models

The Scientist’s Creative Services Team | 2 min read

Clive Svendsen, Meritxell Huch, Ameen Salahudeen, and Maksim Plikus will discuss the latest advances in using patient-derived stem cells to create more accurate disease models.

Fluorescent images of red cells showing high and low levels of infection in green

Parasite Drove Natural Selection in Amazonian Indigenous Groups

Natalia Mesa, PhD | Mar 13, 2023 | 4 min read

The findings could help researchers understand why some individuals are more vulnerable to deadly Chagas disease.

A fruit bat in the hands of a researcher

How an Early Warning Radar Could Prevent Future Pandemics

Amos Zeeberg, Undark | Feb 27, 2023 | 8 min read

Metagenomic sequencing can help detect unknown pathogens, but its widespread use faces challenges.

What Could Cause the Next Pandemic?

The Scientist’s Creative Services Team | 2 min read

Scientists prepare for the future by filling in the research gaps between zoonotic viral reservoirs, emerging viruses, and human immune defenses.

A cluster of spiral-shaped Treponema pallidum bacteria, the causative agent of syphilis.

Science Falls Behind as Syphilis Stages Another Comeback

Bhargavi Duvvuri, Undark | Feb 21, 2023 | 6 min read

Syphilis is among the oldest known sexually-transmitted infections. Scientists still struggle to detect and treat it.

RSV Vaccines That Work?

Rachael Moeller Gorman | Feb 16, 2023 | 10+ min read

Multiple candidates are in Phase 3 clinical trials for older adults and pregnant women, with some getting close to approval in the United States.

3D medical illustration of peripheral blood cells: a lymphocyte (left) and a monocyte (right) surrounded by red blood cells.

PBMCs: Mononucleated and Multipurposed

Deanna MacNeil, PhD | 4 min read

Researchers employ peripheral blood mononuclear cells (PBMCs) in clinical and academic applications related to the immune system and regenerative medicine.

Artist’s rendering of various orange and pink colored bacteria

Q&A: What if Immune Cells Don’t Actually Detect Viruses and Bacteria?

Dan Robitzski | Feb 3, 2023 | 10+ min read

The Scientist spoke with Jonathan Kagan about his idea that immune cells respond to “errors” made by unsuccessful pathogens, not the pathogens themselves.

a newly hatched mosquito sits on top of water, with its discarded cocoon floating below

In Vitro Malaria Sporozoite Production May Lead to Cheaper Vaccines

Katherine Irving | Jan 20, 2023 | 4 min read

A method for culturing the infectious stage of the Plasmodium lifecycle could increase malaria vaccine production efficiency by tenfold, study authors say.

Exposed: Environmental Echoes in Health - A Special Podcast Series

The Scientist’s Creative Services Team and Van Andel Institute | 2 min read

Epigenetic experts discuss how environment and diet leave lasting impressions on the human genome.

Monkeypox Virus Has Potential to Be Sexually Transmitted

Jennifer Zieba, PhD | Jan 9, 2023 | 4 min read

Researchers discovered monkeypox virus in primate testicular tissues.

A black-and-white photo of a person’s hands holding a black-and-white barred chicken. The feathers of its breast have been pulled back to reveal a large tumor.

Transmissible Tumors, 1909

Katherine Irving | Jan 2, 2023 | 2 min read

Pathologist Peyton Rous made a groundbreaking discovery in the early 20th century, but his work wasn’t widely recognized until more than 40 years later.

The Scientist Speaks - Rising From the Dead: How Antibiotic Resistance Genes Travel Between Current and Past Bacteria

Nele Haelterman, PhD | 1 min read

Heather Kittredge and Sarah Evans discuss the environmental conditions that facilitate natural transformation in bacteria’s native habitat.

How Chlamydia Guards Itself Against the Immune System

Natalia Mesa, PhD | Jan 2, 2023 | 4 min read

The bacterium produces a particular protein that allows it to sneak past the human immune system even while triggering inflammation.

<em>Chlamydia</em> invades a host cell, forms a membrane-bound vacuole, or inclusion, and then modifies the protein composition of the structure’s membrane. If immune cells detect <em>Chlamydia</em> before it forms the inclusion, they trigger T cells to produce interferon-γ (IFN-γ), a powerful cytokine. IFN-γ activates the protein mysterin (also called RFN213), which attaches ubiquitin to the inclusion membrane, signaling the cell to destroy the inclusion’s contents by dumping them into a lysosome (left). C. trachomatis produces GarD, a protein that integrates into the inclusion membrane itself and somehow prevents mysterin from attaching ubiquitin, allowing the bacterium to evade immune destruction while continuing to multiply and eventually bursting from the cell (right).

Infographic: How Chlamydia Evades Immune Detection

Natalia Mesa, PhD | Jan 2, 2023 | 2 min read

Chlamydia trachomatis, the bacterium that causes chlamydia, hides from the immune system by cloaking itself in the host cell’s membrane then modifying the membrane’s protein composition.