Everything You Need to Know About Getting Your Genome Sequenced
DNA sequencing can assess your risk of developing certain diseases. It could even help provide medicines personalized to your genes one day. Governments want you to get involved......»»
Genome sequencing project reveals new secrets about cat evolution
Researchers at the Texas A&M School of Veterinary Medicine & Biomedical Sciences (VMBS) and an interdisciplinary team of collaborators have uncovered new information about the history of cat evolution explaining how cats—including well-known specie.....»»
Genetic analysis: Dutch bluetongue virus type is unique
The bluetongue virus is rapidly spreading in the Netherlands. With the use of new techniques, including whole genome sequencing, it has quickly become clear that the Dutch virus is a different virus variant in comparison to previous outbreaks......»»
A high-quality Bougainvillea genome helps to explore evolutionary history of a pigment biosynthetic pathway
Bougainvillea, a widely appreciated ornamental shrub, originates from South America and stands out due to its vibrant bract colors, which are believed to result from betalain accumulation. Although Bougainvillea has important ornamental and prophylac.....»»
Researchers develop novel data representation for transcription factor-binding sequences
The diverse characteristics of the human body's various cells are reflected in their gene expression patterns. The regulation of such gene expression is based on transcription factors that bind to specific sequences in the genome......»»
Genome editing vs natural mutation for variations in tomato size
For tens of thousands of years, evolution shaped tomatoes through natural mutations. Then, humans came along......»»
New "subway map" of Lyme disease pathways identifies potential new treatment targets
Scientists at Tufts University School of Medicine have developed a genome-scale metabolic model or "subway map" of key metabolic activities of the bacterium that causes Lyme disease. Using this map, they have successfully identified two compounds tha.....»»
New insights into the genetics of the common octopus: Genome at the chromosome level decoded
Octopuses are fascinating animals—and serve as important model organisms in neuroscience, cognition research and developmental biology......»»
Hunted in New Zealand, conserved in Australia: Brushtail possum genome could help with population management efforts
Researchers say mapping the genetic code of the brushtail possum will benefit those working to both conserve and control the animal......»»
Targeting a coronavirus ion channel could yield new COVID-19 drugs
The genome of the SARS-CoV-2 virus encodes 29 proteins, one of which is an ion channel called E. This channel, which transports protons and calcium ions, induces infected cells to launch an inflammatory response that damages tissues and contributes t.....»»
Scientists reveal centromere repositioning in soybean genome
Researchers from China studying soybean genome evolution have focused on the phenomenon of centromere repositioning, which involves the formation of new centromeres at different chromosomal locations without altering the underlying DNA sequences. Thi.....»»
Comprehensive pan-genome analysis of lactic acid bacteria unveils new avenues for food industry and health care
A team of international researchers has published the first comprehensive comparative pan-genome analysis of lactic acid bacteria (LAB), a family of microorganisms essential to natural ecosystems and the food industry. Published in Food Microbiology,.....»»
Precise genome engineering and protein activity profiling uncover new cancer drug targets
Searching for new ways to block the growth of cancer cells is like looking for a needle in a haystack. Tumor cells rely on thousands of proteins to function, but only a few of those proteins can be precisely targeted by drugs to treat cancer safely a.....»»
Genome study reveals 30 years of Darwin"s finch evolution
An international team of researchers has released a study on contemporary evolutionary change in natural populations. Their study uses one of the largest genomic datasets ever produced for animals in their natural environment, comprising nearly 4,000.....»»
Using a cutting enzyme and an RNA repair enzyme to modify RNA virus genomes
A team of microbiologists at Montana State University has developed a way to use a cutting enzyme and an RNA repair enzyme to modify the genome of an RNA virus. They describe their technique in Science Advances......»»
Examining the genesis of CRISPR"s molecular scissors
Genome engineering may be the future of medicine, but it relies on evolutionary advances made billions of years ago in primordial bacteria, the original masters of gene editing......»»
Chromosome-scale genome sequence of Suaeda glauca sheds light on salt stress tolerance in halophytes
A research paper titled "Chromosome-scale genome sequence of Suaeda glauca sheds light on salt stress tolerance in halophytes," by Professor Qin Yuan's team from the Center for Genomics, Haixia Institute of Science and Technology (Future Technology C.....»»
Towards a better understanding of early human embryonic development
The onset of embryo-specific gene transcription, also known as embryonic genome activation (EGA), is a crucial step in the developmental journey of an organism. Although EGA has been studied to some extent in mice, human EGA remains largely unexplore.....»»
Everything You Need to Know About Getting Your Genome Sequenced
DNA sequencing can assess your risk of developing certain diseases. It could even help provide medicines personalized to your genes one day. Governments want you to get involved......»»
Parasitic plant convinces hosts to grow into its own flesh—it"s also an extreme example of genome shrinkage
If you happen to come across plants of the Balanophoraceae family in a corner of a forest, you might easily mistake them for fungi growing around tree roots. Their mushroom-like structures are actually inflorescences, composed of minute flowers......»»
Dingoes found to have more harmful mutations than most inbred dog breeds
Genome sequencing comparisons with wolves, strays and dogs across the world has found Australia's dingoes have the highest loads of harmful mutations—and diversity levels that are 36% lower than the most inbred dogs......»»