Most major biological molecules, including all proteins, DNA and RNA, point in one direction or another. In other words, they ...

The team's technology promises to have a big impact on regenerative medicine, where high quality cell cultures without bacterial contamination may be produced without antibiotics. Surfaces that ...

The technology ... had to overcome a major barrier to studying bacterial RNAs, also known as the bacterial transcriptome. Because bacterial cells are tiny, their RNAs are crammed tightly inside ...

“One core part of this technology is the controlled activation of flagella,” Raman explains. “And the other core part is once the bacteria go inside cancer cells, we engineered them with a suicide ...

"One core part of this technology is the controlled activation of flagella," Raman explains. "And the other core part is once the bacteria go inside cancer cells, we engineered them with a suicide ...

ANG-regulated bacteria were determined by 16S rDNA sequencing and their functions in colitis were ... ANG inhibits bacterial growth through degrading cellular RNA or disrupting cell membrane. AMPs are ...

Here, we apply 16S rDNA microbiota profiling and matching (gas chromatography mass spectrometry) metabolomics to assess the consequences of inulin fermentation both on the composition of the colon ...

The bacterial cells were collected by centrifugation, and DNA was extracted using a bacterial DNA extraction kit. The extracted total DNA was used as a template for bacterial 16S rDNA amplification by ...

The researchers engineered the bacteria to concentrate electrons, protons, and a crucial enzyme named hydrogenase within a specific compartment of the cell ... that this technology will contribute ...