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Jun 17, 2021

China docks its first crewed mission at Tiangong space station — watch

Posted by in category: space

After the launch of Tiangong space station’s core module in April, China took on its next challenge: send astronauts to live there.


The crew of Shenzhou-12 successfully docked at Tiangong this week, and will stay on board for 3 months.

Jun 17, 2021

Protein Sequences from Mastodon and Tyrannosaurus Rex Revealed by Mass Spectrometry

Posted by in categories: biotech/medical, evolution

Fossilized bones from extinct taxa harbor the potential for obtaining protein or DNA sequences that could reveal evolutionary links to extant species. We used mass spectrometry to obtain protein sequences from bones of a 160000-to 600000-year-old extinct mastodon (Mammut americanum) and a 68-million-year-old dinosaur (Tyrannosaurus rex). The presence of T. rex sequences indicates that their peptide bonds were remarkably stable. Mass spectrometry can thus be used to determine unique sequences from ancient organisms from peptide fragmentation patterns, a valuable tool to study the evolution and adaptation of ancient taxa from which genomic sequences are unlikely to be obtained.

Jun 17, 2021

Mitochondrial genomes of praying mantises (Dictyoptera, Mantodea): rearrangement, duplication, and reassignment of tRNA genes

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

The metazoan mitochondrial genome (mitogenome) is an ideal model system for comparative and evolutionary genomic research. The typical mitogenome of metazoans encodes a conserved set of 37 genes for 13 protein-coding genes (PCGs), two ribosomal RNA (rRNA) genes, and 22 transfer RNA (tRNA) genes1, with genome-level characters, such as genome size, gene content, and gene order, display high diversity in some lineages2,3. Gene rearrangements are observed frequently in some groups, while gene duplication and loss are distributed sporadically in limited lineages such as Bivalvia, Cephalopod, and Afrobatrachia4,5,6. These remaining duplicate genes and pseudogenes represent important data for exploring the evolutionary history and mechanisms of gene rearrangement and recruitment. For the arrangement of mitochondrial genes, the variation in relative positions of PCGs and rRNA genes are more limited compared with that of tRNA genes across organisms within a phylum7. The tRNA genes with characteristics of diverse changes in relative position, gene content, and secondary structure, are considered as an important tool in studying the evolution of mitogenome, in particular to the rearrangement mechanism8,9,10. Additionally, its variation is usually linked to evolutionary relationships in a wide range of lineages at different taxonomic levels suggesting these features of tRNA could be utilized as useful phylogenetic markers11.

The extensive gene rearrangements (including PCGs and RNA) of insect mitogenomes have been detected in several lineages within the Diptera (Trichoceridae, Cecidomyiidae), Hemiptera (Enicocephalidae), Hymenoptera, Thysanoptera, Psocoptera and Phthiraptera12,13,14,15,16,17,18, while most of investigated mitogenomes share the same gene order with the hypothesized ancestral pancrustacean mitogenome arrangement19 or possess rare tRNA rearrangement. Previously reported dictyopteran mitogenomes consistently display the typical ancestral gene order and content, however only two species are praying mantises and the rest are cockroaches and termites. Members of the Mantodea, a separate lineage within the Dictyoptera, have evolved many unique morphological and behavioural features as the ambush and pursuit predators20,21,22. A better understanding of the diversity of mitogenome evolution in this enigmatic order underlines the need for exploring more taxa with the diverse praying mantis.

Herein, we report eight new mitogenomes from Mantodea and describe their general characteristics. Two new gene rearrangements and reassignment of tRNA genes are described, and evolutionary mechanisms for the gene rearrangements and duplication are discussed. Further, we examine the relationship between tRNA gene duplication and codon usage, and investigate whether these tRNA features vary with phylogeny.

Jun 17, 2021

Accurate aging of wild animals thanks to first epigenetic clock for bats

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

A new study led by University of Maryland and UCLA researchers found that DNA from tissue samples can be used to accurately predict the age of bats in the wild. The study also showed age-related changes to the DNA of long-lived species are different from those in short-lived species, especially in regions of the genome near genes associated with cancer and immunity. This work provides new insight into causes of age-related declines.

This is the first research paper to show that animals in the wild can be accurately aged using an epigenetic clock, which predicts age based on specific changes to DNA. This work provides a new tool for biologists studying animals in the wild. In addition, the results provide insight into possible mechanisms behind the exceptional longevity of many bat species. The study appears in the March 12, 2021, issue of the journal Nature Communications.

“We hoped that these epigenetic changes would be predictive of age,” said Gerald Wilkinson, a professor of biology at UMD and co-lead author of the paper. “But now we have the data to show that instead of having to follow animals over their lifetime to be sure of their age, you can just go out and take a tiny sample of an individual in the wild and be able to know its age, which allows us to ask all kinds of questions we couldn’t before.”

Jun 17, 2021

Ibotenic Acid Biosynthesis in the Fly Agaric Is Initiated by Glutamate Hydroxylation†

Posted by in categories: biotech/medical, genetics

:Ibotenic Acid Biosynthesis in the Fly Agaric Is Initiated by Glutamate Hydroxylation.


The fly agaric, Amanita muscaria, is widely known for its content of the psychoactive metabolites ibotenic acid and muscimol. However, their biosynthetic pathway and the respective enzymes are entirely unknown. 50 years ago, the biosynthesis was hypothesized to start with 3‐hydroxyglutamate. Here, we build on this hypothesis by the identification and recombinant production of a glutamate hydroxylase from A. muscaria. The hydroxylase gene is surrounded by six further biosynthetic genes, which we link to the production of ibotenic acid and muscimol using recent genomic and transcriptomic data. Our results pinpoint the genetic basis for ibotenic acid formation and thus provide new insights into a decades‐old question concerning a centuries‐old drug.

Keywords: biosynthesis, enzyme catalysis, fly agaric, hydroxylation, ibotenic acid.

Jun 17, 2021

Indias human spaceflight plans coming together despite delays

Posted by in category: space travel

The nation may launch its first crewed spaceflight in 2023.


So far, only the U.S., the Soviet Union/Russia and China have launched humans to Earth orbit. But India aims to join that exclusive club in the next year or two.

Jun 17, 2021

A hacker tried to poison a Calif. water supply. It was as easy as entering a password

Posted by in categories: computing, law enforcement, sustainability

On Jan. 15, a hacker tried to poison a water treatment plant that served parts of the San Francisco Bay Area. It didn’t seem hard.

The hacker had the username and password for a former employee’s TeamViewer account, a popular program that lets users remotely control their computers, according to a private report compiled by the Northern California Regional Intelligence Center in February and seen by NBC News.

After logging in, the hacker, whose name and motive are unknown and who hasn’t been identified by law enforcement, deleted programs that the water plant used to treat drinking water.

Jun 17, 2021

A DNA-based storage system with files and metadata

Posted by in category: biotech/medical

Queries can take days, but it’s possible to pull out specific files.

Jun 17, 2021

A Distinctive Inflammatory Signature Found in a Genetic Form of ALS

Posted by in categories: biotech/medical, genetics, neuroscience

Summary: Researchers found an increased inflammatory signal in patients with the C90rf72 subtype of ALS. The increased inflammatory biomarkers could be found in peripheral serum tests.

Source: Thomas Jefferson University.

Amyotrophic lateral sclerosis (ALS), also known as Lou Gehrig’s disease, is a neurodegenerative disease that strikes nearly 5000 people in the U.S. every year.

Jun 17, 2021

Scientists Discover Cause of Age-Related Mitochondrial Decay

Posted by in categories: biotech/medical, life extension

The inside of a mitochondria is made up of a folded membrane, which has evolved to produce the greatest surface area possible between two parts of the mitochondria known as the intermembrane space (the outer part) and the mitochondrial matrix (the inner part). To drastically oversimplify this entire process, the mitochondria uses glucose (and ethanol if it’s available) to pump hydrogen ions (with the occasional deuterium and tritium ion) across the membrane which separates these two compartments of the mitochondria (known as the cristae) into the intermembrane space. These hydrogen ions then flow back into the mitochondrial matrix through a very special protein called ATP synthase, which uses the electrostatic potential energy of the hydrogen ion to manufacture ATP.

Unfortunately, as we get older this inner membrane starts to decay and become smaller. As the cristae starts to shrink, there is less space for ATP synthase, which means there is less ATP produced, which ultimately means that our cells do not have enough energy to maintain all of our cellular functions. As you can imagine, this lack of energy is catastrophic for the health of the cell, and will eventually lead to either cell senescent (where the cell essentially becomes dormant), or complete cell death.

Numerous different suggestions have been put forward as to explain why exactly why mitochondria decay in this way, including mutations within the DNA of the mitochondria (they have their own chromosomes), as well as the build up of oxidative agents within the cell itself which cause direct damage to the mitochondria. However, a group of scientists lead by Dr Hazel Szeto have discovered that the decay of the mitochondrial cristae is linked to declining levels of a phospholipid (fat) called cardiolipin. It turns out that as we age, oxidative agents within our body destroy this phospholipid, which is essential for maintaining the folded inner membrane of the mitochondria.