Advertisement
MO BIO
MO BIO

Multimedia

» antibiotic resistance, techniques and cancer

Video, Slideshows, Infographics

Most Recent

image: Poor Little Devils

Poor Little Devils

By | November 1, 2014

See the devastating infectious cancer that may drive the Tasmanian Devil to extinction.

0 Comments

image: Targeting Tumors with Viruses

Targeting Tumors with Viruses

By | June 1, 2014

Stephanie Swift discusses the strategy of fighting cancer with viruses.

0 Comments

image: Superbugs Ascending

Superbugs Ascending

By | April 1, 2014

University of Texas at San Antonio microbiologist Karl Klose discusses the problem of antibiotic resistance in a 2013 TEDx talk.

0 Comments

image: Top 10 Innovations: Honorable Mentions

Top 10 Innovations: Honorable Mentions

By | December 1, 2013

Meet some of the products that didn't break into the Top 10 in 2013, but recieved praise from our expert judges nonetheless.

0 Comments

image: Cortex Tour

Cortex Tour

By | November 1, 2013

Travel through the outer layers of a mouse brain thanks to array tomography and Stanford University's Stephen Smith.

0 Comments

image: Cancer Whisperer

Cancer Whisperer

By | July 1, 2013

Profile subject Cédric Blanpain describes his work rooting out the role of stem cells in tumors.

0 Comments

image: Atomic Force Microscopy

Atomic Force Microscopy

By | April 2, 2013

The new technique reveals unprecedented details of microscopic life.

0 Comments

image: Blue Biotech

Blue Biotech

By | March 1, 2013

Systems biologist Lone Gram describes her approach to combing the oceans for novel compounds that may be useful in the fight against pathogens.

0 Comments

image: Telomere Basics

Telomere Basics

By | May 1, 2012

Telomeres are repetitive, noncoding sequences that cap the ends of linear chromosomes. They consist of hexameric nucleotide sequences (TTAGGG in humans) repeated hundreds to thousands of times. 

4 Comments

image: Designing Transition-State Inhibitors

Designing Transition-State Inhibitors

By | May 1, 2012

A transition-state mimic has the power to bind an enzyme at its tipping point as strongly as any available inhibitor and more strongly than most, preventing enzymatic activity. 

1 Comment

Follow The Scientist

icon-facebook icon-linkedin icon-twitter icon-vimeo icon-youtube
Advertisement

Stay Connected with The Scientist

  • icon-facebook The Scientist Magazine
  • icon-facebook The Scientist Careers
  • icon-facebook Neuroscience Research Techniques
  • icon-facebook Genetic Research Techniques
  • icon-facebook Cell Culture Techniques
  • icon-facebook Microbiology and Immunology
  • icon-facebook Cancer Research and Technology
  • icon-facebook Stem Cell and Regenerative Science
Advertisement
Mettler Toledo
Mettler Toledo
Advertisement
Life Technologies