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Archive for the ‘biotech/medical’ category: Page 731

Jan 22, 2023

‘Partly Alive’: Scientists Revive Cells in Brains From Dead Pigs

Posted by in categories: biotech/medical, neuroscience

Year 2019 face_with_colon_three


In a study that raises profound questions about the line between life and death, researchers have restored some cellular activity to brains removed from slaughtered pigs.

The brains did not regain anything resembling consciousness: There were no signs indicating coordinated electrical signaling, necessary for higher functions like awareness and intelligence.

Continue reading “‘Partly Alive’: Scientists Revive Cells in Brains From Dead Pigs” »

Jan 22, 2023

UK Meteorite That Fell To Earth Contains Building Blocks For Life

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

Basically many have theorized that these seeds coming from meteorites mean that essentially perhaps that life started from seeds like this. Going much deeper down the rabbit hole we actually are starting to see a grand design possibly by actually organisms that evolved into what we have now over millions of years which is actually weird because all earth would have been just a rock but this could be a grand architecture genetically even from the first seed to the biological singularity. This could Basically prove the existence of some entity that may have created humans and all life most like from this seed which means whether it is alien gods or God there will be so much more discover due to this complexity which can benefit all medicine and also genetic engineering 🤔 😉 😀


The fact the first of four surviving pieces was collected within 12 hours of landing, allowing little time for contamination, added to the meteorite’s value. Indeed, because the abundance of organic material in the meteorite was ten times lower than in other carbonaceous chondrites, they might not have been distinguishable from Earthly contamination had it not been retrieved so quickly. As it is, some of the amino acids found are quite rare on Earth, confirming their extraterrestrial origins.

The Winchcombe stones had a number of features never previously seen in meteorites, including low amino acid abundance for a carbonaceous chondrite but unusual ratios among the amino acids and PAHs that are present. Combined with the incomplete conversion of Winchcombe’s components into solid rock, this led the authors to speculate Winchcombe could represent a new class of meteorite that has not been studied before.

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Jan 22, 2023

Study examines brain aging in people with schizophrenia

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

People suffering from schizophrenia can expect to die 15 years sooner than they ordinarily would. A new study has now found that this could be partly caused by advanced brain aging. The research findings were published in the journal Molecular Psychiatry.

Schizophrenia is associated with an increased risk of premature death, partially as a result of suicide or poor physical health. Studies to date have suggested that the high prevalence of disease, long-term and excess deaths in people with schizophrenia could in part be caused when their brain’s biological age overtakes the .

According to a few small-scale studies, this discrepancy called brain-predicted age difference (brain-PAD) has been found to be consistently higher in schizophrenic patients compared to healthy individuals. The studies have also shown that the gap between the two ages mainly widens during the first years after the onset of the illness.

Jan 22, 2023

‘Scientists find leprosy bacteria could be force for good

Posted by in categories: biotech/medical, health

Dr Miriam Stoppard writes how the ancient infection leprosy — once such a disfiguring disease that sufferers were exiled — could now help people’s health Leprosy is an ancient infection, common in biblical times, causing such disfiguring disease that sufferers were exiled to isolated colonies miles from anywhere.

Jan 22, 2023

Resting Heart Rate, Heart Rate Variability: What’s Optimal, 1600+ Days of Data

Posted by in categories: biotech/medical, genetics

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Continue reading “Resting Heart Rate, Heart Rate Variability: What’s Optimal, 1600+ Days of Data” »

Jan 22, 2023

A Biological Wonder: Harvard Researchers Discover Embryonic Origins of Adult Pluripotent Stem Cells

Posted by in categories: biotech/medical, food

Stem cells are a remarkable biological wonder that have the ability to repair, replace and regenerate cells. In most animals and humans, stem cells are limited to generating only specific types of cells. For example, hair stem cells will only produce hair, and intestine stem cells will only produce intestines. However, many distantly-related invertebrates.

Invertebrates are animals that do not have a backbone. They make up the majority of the animal kingdom and include animals such as insects, worms, mollusks, and arachnids. Invertebrates are found in almost every habitat on Earth, from the depths of the oceans to the highest mountains. They play important roles in the ecosystem as decomposers, pollinators, and as a food source for other animals. Invertebrates have a wide range of body shapes, sizes, and behaviors, and they have evolved a variety of ways to survive and thrive in their environments.

Jan 21, 2023

How one woman’s ‘immortal’ cells changed the world

Posted by in categories: biotech/medical, life extension

In 1951, Henrietta Lacks, a young black woman from Baltimore, died of cancer. However, before her death a small sample of her cells were taken from her without her knowledge, and these cells did not die. Unlike every other previous sample of human cells, these continued to grow and multiply and still do so today. The HeLa cells became the first ‘immortalised human cell line’ and have helped both save and create millions of lives ever since. Video by Dan John Animation by Lily Baker.

Jan 21, 2023

DensePose: DensePose was introduced in 2018 and aims to map human pixels in an RGB image to the 3D surface of the human body

Posted by in categories: biotech/medical, internet

Synced has previously covered additional research on the use of WiFi signals for human pose and action recognition through walls and the associated risks of such technologies.

Please note that the DensePose-COCO and DensePose-PoseTrack datasets are distributed under NonCommercial Creative Commons license.

Continue reading “DensePose: DensePose was introduced in 2018 and aims to map human pixels in an RGB image to the 3D surface of the human body” »

Jan 21, 2023

How Artificial Intelligence Found the Words To Kill Cancer Cells

Posted by in categories: biotech/medical, robotics/AI

Scientists at the University of California, San Francisco (UCSF) and IBM Research have created a virtual library of thousands of “command sentences” for cells using machine learning. These “sentences” are based on combinations of “words” that direct engineered immune cells to find and continuously eliminate cancer cells.

This research, which was recently published in the journal Science, is the first time that advanced computational techniques have been applied to a field that has traditionally progressed through trial-and-error experimentation and the use of pre-existing molecules rather than synthetic ones to engineer cells.

The advance allows scientists to predict which elements – natural or synthesized – they should include in a cell to give it the precise behaviors required to respond effectively to complex diseases.

Jan 21, 2023

Researchers develop new, more accurate computational tool for long-read RNA sequencing

Posted by in categories: biotech/medical, computing

On the journey from gene to protein, a nascent RNA molecule can be cut and joined, or spliced, in different ways before being translated into a protein. This process, known as alternative splicing, allows a single gene to encode several different proteins. Alternative splicing occurs in many biological processes, like when stem cells mature into tissue-specific cells. In the context of disease, however, alternative splicing can be dysregulated. Therefore, it is important to examine the transcriptome—that is, all the RNA molecules that might stem from genes—to understand the root cause of a condition.

However, historically it has been difficult to “read” RNA molecules in their entirety because they are usually thousands of bases long. Instead, researchers have relied on so-called short-read RNA sequencing, which breaks RNA molecules and sequence them in much shorter pieces—somewhere between 200 to 600 bases, depending on the platform and protocol. Computer programs are then used to reconstruct the full sequences of RNA molecules.

Short-read RNA sequencing can give highly accurate sequencing data, with a low per-base error rate of approximately 0.1% (meaning one base is incorrectly determined for every 1,000 bases sequenced). Nevertheless, it is limited in the information that it can provide due to the short length of the sequencing reads. In many ways, short-read RNA sequencing is like breaking a large picture into many jigsaw pieces that are all the same shape and size and then trying to piece the picture back together.

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