The Scientist

» bumble bees and immunology

Most Recent

image: Long-Lived Immunotherapy Stem Cells

Long-Lived Immunotherapy Stem Cells

By Ruth Williams | February 4, 2015

Genetically modified T memory stem cells persist in patients for more than 10 years, and can differentiate into a variety of T cell types.

1 Comment

image: B Cell Bosses

B Cell Bosses

By Kate Yandell | February 1, 2015

Gut bacteria in mice spur regulatory B cells to differentiate and release an anti-inflammatory cytokine.


image: Stubbornly Persistent

Stubbornly Persistent

By Mary Beth Aberlin | February 1, 2015

Microorganisms continually challenge our assumptions of what life can achieve.

1 Comment

image: Thanks for the Memories

Thanks for the Memories

By Ruth Williams | February 1, 2015

B and T cells may be the memory masters of the immune system, but research reveals that other cells can be primed by pathogens, too.

1 Comment

image: Viral Virtuosos

Viral Virtuosos

By Christopher S. Sullivan | February 1, 2015

New understanding of noncoding RNAs may solve a long-standing puzzle about how viruses orchestrate lifelong infections.  


image: Interferon Discoverer Dies

Interferon Discoverer Dies

By Kerry Grens | January 26, 2015

Jean Lindemann, the virologist who helped figure out that interferons were responsible for anti-viral responses, has passed away at age 90.


image: Inflammation Overdrive

Inflammation Overdrive

By Ruth Williams | January 15, 2015

Experimental vaccines that specifically boost T helper cells lead to immunopathology and death in mice.


image: Fat to the Rescue

Fat to the Rescue

By Jenny Rood | January 5, 2015

Adipocytes under the skin help fight infections by producing an antimicrobial agent.


image: A Movable Defense

A Movable Defense

By Eugene V. Koonin and Mart Krupovic | January 1, 2015

In the evolutionary arms race between pathogens and hosts, genetic elements known as transposons are regularly recruited as assault weapons for cellular defense.


image: Stress Fractures

Stress Fractures

By Daniel Cossins | January 1, 2015

Social adversity shapes humans’ immune systems—and probably their susceptibility to disease—by altering the expression of large groups of genes.


Popular Now

  1. Could Rapamycin Help Humans Live Longer?
  2. Renowned Physicist Stephen Hawking Dies
  3. Elena Rybak-Akimova, Chemical Kinetics Expert, Dies
  4. University of Oregon Erecting a $1-Billion Science Center