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Archive for the ‘genetics’ category: Page 24

Jun 16, 2024

The Blood of Exceptionally Long-Lived People Reveals Crucial Differences

Posted by in categories: biotech/medical, genetics, life extension

Centenarians, once considered rare, have become commonplace. Indeed, they are the fastest-growing demographic group of the world’s population, with numbers roughly doubling every ten years since the 1970s.

How long humans can live, and what determines a long and healthy life, have been of interest for as long as we know. Plato and Aristotle discussed and wrote about the ageing process over 2,300 years ago.

The pursuit of understanding the secrets behind exceptional longevity isn’t easy, however. It involves unravelling the complex interplay of genetic predisposition and lifestyle factors and how they interact throughout a person’s life.

Jun 16, 2024

Is Coffee Associated With A Younger Biological Age?

Posted by in categories: biological, genetics, life extension

Join us on Patreon! https://www.patreon.com/MichaelLustgartenPhDDiscount Links: Epigenetic, Telomere Testing: https://trudiagnostic.com/?irclickid=U-s3Ii2r7x

Jun 15, 2024

CRISPR Gene Drives and the Future of Evolution

Posted by in categories: bioengineering, biotech/medical, evolution, genetics

Immunizing enormous numbers of wild mice, however, is prohibitively difficult. By using genetic engineering, researchers could create white-footed mice that produced these antibodies from birth and could pass this ability on to their offspring. But did the island residents want to live with genetically engineered mice?

The answer was perhaps, but with caveats. In consulting with communities on this technology development, researchers found that community members preferred a cisgenic approach: They wanted white-footed mice that were engineered with DNA only from other white-footed mice.18 This would make the project more difficult for the researchers, and meant that a CRISPR-based gene drive, even one with limited spread, could not be used, since no white-footed mouse naturally has this gene-editing system. However, said Esvelt, “It’s their environment, so it’s their call.”

“We’re potentially causing an irreversible change to the environment,” said Telford. “We need to think about informed consent of the community as a proxy for informed consent of the environment. That’s been a real advance and something [that Esvelt] has pioneered—involving the communities from the very start.”

Jun 14, 2024

New DNA sequencing technique detects early genetic mutations

Posted by in categories: biotech/medical, genetics

HiDEF-seq advances cancer treatment:


HiDEF-seq technique could further help develop or advance new prevention approaches or develop treatments for genetic diseases and even cancer.

Continue reading “New DNA sequencing technique detects early genetic mutations” »

Jun 14, 2024

New study offers clues into genetics of X chromosome loss

Posted by in categories: biotech/medical, genetics, life extension

The DNA a woman is born with may influence how her cells respond to chromosomal abnormalities acquired with aging, according to a new genomic analysis co-led by NCI researchers.

Jun 14, 2024

Engineering brain assembloids to interrogate human neural circuits

Posted by in categories: engineering, genetics, neuroscience

A protocol is described for generating human brain assembloids and performing viral labeling and retrograde tracing, 3D live imaging of axon projection and optogenetics with calcium imaging and electrophysiological recordings to model neural circuits.

Jun 14, 2024

Why many lung cancer patients who have never smoked have worse outcomes

Posted by in categories: biotech/medical, genetics

The reason targeted treatment for non-small cell lung cancer fails to work for some patients, particularly those who have never smoked, has been discovered by researchers from UCL, the Francis Crick Institute and AstraZeneca.

The study, published in Nature Communications, shows that lung cancer cells with two particular genetic mutations are more likely to double their genome, which helps them to withstand treatment and develop resistance to it.

In the UK, lung cancer is the third most common type of cancer and the leading cause of cancer death. Around 85% of patients with lung cancer have (NSCLC), and this is the most common type found in patients who have never smoked. Considered separately, “never smoked” lung cancer is the fifth-most common cause of cancer death in the world.

Jun 13, 2024

Biomedicine Breakthrough: Complete Gene Insertion Now Possible in Human Cells

Posted by in categories: biotech/medical, genetics

The gene-editing technique employs prime editors along with advanced enzymes known as recombinases. This method has the potential to lead to universal gene therapies that are effective for conditions like cystic fibrosis.

Researchers at the Broad Institute of MIT and Harvard have enhanced a gene-editing technology that can now efficiently insert or replace entire genes in human cell genomes, potentially making it suitable for therapeutic uses.

The advance, from the lab of Broad core institute member David Liu, could one day help researchers develop a single gene therapy for diseases such as cystic fibrosis that are caused by one of hundreds or thousands of different mutations in a gene. Using this new approach, they would insert a healthy copy of the gene at its native location in the genome, rather than having to create a different gene therapy to correct each mutation using other gene-editing approaches that make smaller edits.

Jun 13, 2024

A Billion-Year Evolutionary Tale — Biologists Trace Cell Division Back to Its Roots

Posted by in categories: evolution, genetics

Cell division is a crucial process for all life forms, from bacteria to blue whales, enabling growth, reproduction, and the continuation of species. Despite its universal nature, the methods of cell division vary significantly across organisms. A recent study by EMBL Heidelberg’s Dey group, along with their collaborators and published in Nature, investigates the evolution of cell division methods in organisms closely related to fungi and animals. For the first time, this research demonstrates the connection between an organism’s life cycle and its cell division techniques.

Despite last sharing a common ancestor over a billion years ago, animals and fungi are similar in many ways. Both belong to a broader group called ‘eukaryotes’ – organisms whose cells store their genetic material inside a closed compartment called the ‘nucleus’. The two differ, however, in how they carry out many physiological processes, including the most common type of cell division – mitosis.

Most animal cells undergo ‘open’ mitosis, in which the nuclear envelope – the two-layered membrane separating the nucleus from the rest of the cell – breaks down when cell division begins. However, most fungi use a different form of cell division – called ‘closed’ mitosis – in which the nuclear envelope remains intact throughout the division process. However, very little is known about why or how these two distinct modes of cell division evolved and what factors determine which mode would be predominantly followed by a particular species.

Jun 13, 2024

How Genes and Epigenetics Shape Brain Folding

Posted by in categories: genetics, neuroscience

Summary: A new study uncovered how epigenetic marks and the Cux2 protein influence brain folding. The study reveals that the epigenetic mark H3K27ac and Cux2 are key to forming the cerebral cortex’s gyri and sulci.

These findings enhance our understanding of brain development and could inform treatments for brain malformations. The research underscores the complexity of the nervous system and the pivotal role of epigenetics in brain structure.

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