Modus Operandi

» microbiology, immunology, cancer and gene silencing

Most Recent

image: Gut Bacteria for Insect RNAi

Gut Bacteria for Insect RNAi

By | June 1, 2016

Lacing insect food with microbes encoding double-stranded RNAs can suppress insect gene expression.

0 Comments

image: Tumor-Shrinking Triple-Helices

Tumor-Shrinking Triple-Helices

By | April 1, 2016

A braided structure and some adhesive hydrogel make therapeutic microRNAs both stable and sticky.

0 Comments

image: Scanning for SIV’s Sanctuaries

Scanning for SIV’s Sanctuaries

By | May 1, 2015

Whole-body immunoPET scans of SIV-infected macaques reveal where the replicating virus hides.  

0 Comments

image: Bursting Cancer’s Bubble

Bursting Cancer’s Bubble

By | April 1, 2015

Scientists make oxygen-filled microbubbles designed to increase tumor sensitivity to radiation.

3 Comments

image: Bespoke Cell Jackets

Bespoke Cell Jackets

By | December 1, 2014

Scientists make hydrogel coats for individual cells that can be tailored to specific research questions.

0 Comments

image: Exit Strategy

Exit Strategy

By | January 1, 2014

Scientists come up with a better way to watch cells leave blood vessels.

0 Comments

image: BRET Meets FRET

BRET Meets FRET

By | May 1, 2013

Scientists create biocompatible, self-luminescing nanoparticles for in vivo imaging.

0 Comments

image: Mimicking Mussels

Mimicking Mussels

By | April 1, 2013

Scientists develop a gel that mimics mollusc glue to coat the insides of blood vessels.

1 Comment

image: Live-Action Networks

Live-Action Networks

By | October 1, 2012

Mass spec plus novel software equals dynamic views into the chemical lives of microbes.

0 Comments

image: Dynamic Delivery

Dynamic Delivery

By | July 1, 2012

Microscopic sponges made entirely of RNA enable efficient gene silencing.

0 Comments

Popular Now

  1. Neurons Compete to Form Memories
  2. Mapping the Human Connectome
    Daily News Mapping the Human Connectome

    A new map of human cortex combines data from multiple imaging modalities and comprises 180 distinct regions.

  3. The Genetic Components of Rare Diseases
  4. Classic Example of Symbiosis Revised
RayBiotech