Using third-generation metagenomics, researchers from the Department of Plant Production and Microbiology at the Miguel ...

The NCBI Prokaryotic Genome Annotation Pipeline is designed to annotate bacterial and archaeal genomes (chromosomes and plasmids). Genome annotation is a multi-level process that includes prediction ...

coli populations demonstrated that reducing entropy promoted the effective plasmid transfer rate. Analysis of prokaryotic genome data suggested that plasmids and antibiotic resistance genes were ...

Testing shows that Evo 2 accurately predicts the functional effects of mutations across prokaryotic and eukaryotic genomes. It also successfully annotated the woolly mammoth genome from raw ...

The Evo 2 preprint described three design tasks that span different levels of genomic complexity: 1) mitochondrial genome 2) prokaryotic genome of Mycoplasma genitalium, a commonly used model of ...

In prokaryotic cells, DNA bundles together in a region called the nucleoid. Primitive organelles, such as micro-compartments found in some bacteria, help organize cellular processes by concentrating ...

The compactness of prokaryotic genomes is commonly perceived as evidence of adaptive genome streamlining caused by strong purifying selection in large microbial populations. In such populations, even ...

As different as these multicellular creatures might be, their bodies are all composed of the same type of cell — eukaryotic cells, which enclose their DNA in a nucleus and possess energy-producing ...

The researchers employed a two-component system known as SPARDA (short prokaryotic Argonaute, DNase, and RNase-associated) to effectively identify DNA sequences with a notable level of sensitivity ...

Prokaryotes contain five different types of DNA polymerase. These are described below. Polymerase I is a DNA repair enzyme from the family A polymerases that has a 5’ to 3’ and 3’ to 5 ...