May 26, 2019

    Cells contain 42 million proteins
    There are 42 million proteins in a single cell

    Cells are the building blocks of every living organism, and they are packed with proteins to make them work: 42 million to be precise. This astonishing number was found in yeast cells by analysing already existing data in a new way in a study that made quantification possible for the first time. Increased insight into the biology of proteins in a single cell helps to understand diseases where there is too much or too little of a particular protein.

    Read the full story: www.sciencedaily.com/
    Scientific publication: www.cell.com/cell-systems/


    Would starfish see the world like brittlestarts do?
    Seeing without eyes

    Brittlestars appear to have many specialised cells on their skin that are full of light-sensitive molecules with which they can scan their environment for light and dark areas. These animals, relatives of starfish, use these light-sensitive cells for example to move towards darker areas to hide themselves. These new findings contradict previous hypotheses of how sea stars sense their environment, without having a real eye nor a brain to process visual information.

    Read the full story: www.nature.com/articles/
    Scientific publication: rspb.royalsocietypublishing.org/content/


    Birds decrease in size as temperatures increase. Image by Dreamstime.
    Birds around the world are shrinking due to increasing temperatures

    Birds living in colder climate have generally larger bodies, in order to reduce heat loss. To understand better the variations in body size induced by changing temperatures, scientists studied the European house sparrows from Australia and New Zeeland. They looked for relationships between variations in size of the birds with the high summer temperatures. The conclusion was that the average adult body size was decreased, and this was strongly correlated with high temperatures. The study raises concerns that increasing global warming could decrease the body of birds, with a negative impact on their health.

    Read the full story: https://www.eurekalert.org
    Scientific publication: http://www.bioone.org


    Horses once had five distinct toes. Image by ScienceBriefss
    It is largely accepted that horses that live today have only single-toed hooves

    It is largely accepted that horses that live today have only single-toed hooves. Previous research has shown that their ancestors had maximum three or four functional toes. However, a new study published today claims that Mesohippus, a horse which lived 35 million years ago, had five distinct toes. The same is similar for a more recent horse relative from 5 million years ago. In the modern horse, the four of the fingers have gradually reduced with evolution until they became the ridges of the horse hooves.

    Read the full story: http://www.sciencemag.org
    Scientific publication: The Royal society Publishing


    Centipede venom can kill large preys. Nattawat Kaewjirasit, dreamstime.com
    Giant centipedes kill very big prey by blocking potassium channels with deadly venom - Life news

    The Chinese red-headed centipede, which can grow up to 20 cm (8 in) in length, can kill prey up to 15 times bigger then its body. The centipede weights about 3 grams, but it is capable of killing a mouse of 45g in a few seconds. A new study discovered that this is due to a peptide called SsTx found in the venom of the centipede. SsTx kills by blocking a group of potassium channels called KCNQ, essential for normal biological processes. By targeting these ion channels the venom disrupts the nervous system but also the respiratory and cardiovascular functions.

    A video of the centipede in action is found here. Please be advised, the content may be disturbing to some viewers!

    Read the full story: www.outerplaces.com/
    Scientific publication: www.pnas.org


    Plants can sense the world and react to it. Image by sciencebriefss.com
    Plants can see and hear and this study shows how they sense the world - life science news

    Believe it or not, plants also have senses. They can “smell” chemicals, they can react to sounds and they can see (they respond to light). But, how is this possible? Researchers from the University of Birmingham asked this question and they discovered a network map including over 200 proteins that plants use to feel the world. One of the most important of these “sensing” proteins are the leucine-rich repeat receptor kinases which are similar to some human receptors. Further study of this network of proteins will lead to ways of improving plant’s resistance and productivity.

    Read the full story: www.eurekalert.org
    Scientific publication: www.nature.com


    Great white shark. Image by Fotolia
    Where do sharks go for lunch? New research reveals sharks’ eating habits - short life science news

    There are more than 500 species of sharks but little is known about the feeding behavior of most of them. A large scale international study figured out the places where sharks eat by analyzing carbon isotopes found in the sharks. They discovered that sharks living far from costal regions travel a long way to get their food from specific oceanic areas. On the contrary, costal shark feel locally, without traveling to much. The results have important applications for the conservation efforts for many shark species.

    Read the full story: www.sciencedaily.com
    Scientific publication: www.nature.com


    DNA that does not code for proteins is important for brain development
    Non-coding DNA essential for normal brain development

    The mystery of what highly conserved, but not protein-encoding, DNA is for has finally been solved: it regulates the expression of genes that do code for proteins, and by doing so guides brain development. When researchers removed this non-coding DNA in experimental mice, they observed abnormalities in the hippocampus that resemble those found in Alzheimer’s disease or could facilitate epilepsy and dementia. Future studies will have to reveal whether patients with these disorders have mutations in these important but understudied DNA sequences.

    Read the full story: www.nature.com/articles/
    Scientific publication: www.cell.com/cell/


    Pelican spider. Image by: Robert Whyte / Greg Anderson via Wikipedia
    18 new species added to the pelican spiders family

    A new scientific publication describes 18 new species of spiders from the family of Archaeidae also know as pelican spiders. The amazing discovery was done by researchers from the Smithsonian National Museum of Natural History in Washington D.C. They analyzed anatomically and genetically pelican spider specimens from museums but also live specimens.

    These spiders (popularly know as assassin spiders) are small in size, leaving in leaf litter. They have “necks” that are elongated resembling the peak of a pelican. In total there are around 70 species identified but the above research raises the possibility that there might be many more still undiscovered.

    Read the full story: https://www.sciencenews.org
    Scientific publication: https://zookeys.pensoft.net/articles.php?id=20222


    RNA in cells. Some of it is of ancient viral origin and can be transferred to other cells. Image by Ryan Jeffs, via Wikimedia Commons
    RNA in cells
    During evolution, plants and animals have been infected by viruses and some of the virus genes are stably integrated in the genome. Two groups independently found that cells from flies and mice use at least one of these genes to facilitate communication between cells. The gene transcript and the protein it codes for are packed into a vesicle, which is released from one cell and fuses with another. In this way, content between cells is shared and this is important for neuron-neuron as well as neuron-muscle connections, and hence for learning and muscle contraction.

    Read the full story: https://www.nature.com/articles/d41586-018-00492-w

    Scientific publications: http://dx.doi.org/10.1016/j.cell.2017.12.024 and http://dx.doi.org/10.1016/j.cell.2017.12.022

    Spectacular find of Pterosaur eggs sheds new light on the life of the first flying vertebrates. © pixabay.com
    Spectacular find of Pterosaur eggs sheds new light on the life of the first flying vertebrates
    Hundreds of fossilized eggs of the flying dinosaur Pterosaur in China provide new evidence that these flying giants nested in groups, and that they might not have been able to fly shortly after hatching. The embryos revealed strongly developed hind limbs, but not forelimbs necessary for flying. However, some experts in the field point out that more evidence is necessary to support this spectacular claim. Analyses of more embryos that have already been excavated might provide the answers.

    Source: https://www.nature.com/

    Scientific publication: http://science.sciencemag.org/content/358/6367/1197.long

    Even Dinosaurs were not spared of bloodsucking ticks © CDC/ Dr. Christopher Paddock, Public Health Image Library
    Even Dinosaurs were not spared of bloodsucking ticks
    Scientists discovered ticks in a 99 million-year-old amber which showed that it had a penchant for latching on to dinosaurs. This amber which dates way back to the Cretaceous period has an exciting specimen of a tick holding onto a dinosaur feather. Scientists claim that this is the first fossil evidence of parasitization of dinosaurs.

    Read the full story: https://www.cnet.com

    Bats can carry the SARS virus
    Bats can carry the SARS virus
    Researchers have found strains of SARS coronaviruses in a single population of horseshoe bats that are very similar to the deadly variant that killed over 800 people worldwide in 2003. This particular horseshoe bat population lives in caves in the remote province of Yunnan in China, and only one kilometre away from the nearest village. As genetics of SARS viruses change fast, there is a risk that SARS viruses might infect humans again, and produce a new outbreak of disease, the authors warn.

    Read full story: https://www.nature.com/articles/d41586-017-07766-9

    Scientific publication: http://journals.plos.org/plospathogens/article?id=10.1371/journal.ppat.1006698

    DNA helix encoding all the proteins in our body
    DNA helix encoding all the proteins in our body
    Our genetic information is coded on our DNA by four naturally occurring bases that together specify the 20 amino acids that make up the proteins of our body. Now biochemists have added two more foreign chemical bases to the DNA code, and show that they work together with the natural bases to make functional proteins in bacteria. This is an important step in synthetic biology, and might lead to the generation of completely new proteins that can be used in the treatment of diseases or solve antibiotic resistance.

    Read the full story: https://www.nature.com/news/alien-dna-makes-proteins-in-living-cells-for-the-first-time-1.23040

    Scientific publication: http://dx.doi.org/10.1038/nature24659 (2017)

    Alkali Flies in Mono Lake, California. Photo: J. Gallagher, via Wikimedia Commons
    Alkali Flies in Mono Lake, California
    The alkali fly Ephydra hians can crawl into water, and dive up to eight meters deep. When they resurface, they are as dry as Sahara sand. Biologists of the California Institute of Technology in Pasadena found out that these flies are covered in hairs that are coated with a special wax. This makes it possible that an air bubble forms around the body, not only to keep them dry but also to provide oxygen for breathing under water. The flies live in Mono Lake in California and are an important food source for migrating birds.

    Read the full story: http://www.nature.com/news/how-alkali-flies-stay-dry-1.23027

    Scientific publication: http://dx.doi.org/10.1073/pnas.1714874114 (2017).

    New orangutan species discovered
    New orangutan species discovered
    A new great ape species has been discovered in the forests of the Indonesian island of Sumatra, for the first time in more than 80 years.

    vocal learning in bats
    vocal learning in bats
    Learning to communicate by repeating others (known as vocal learning), is only done by a handful of mammalian species, including humans. Typically, babies learn from their mother, but new research on bats demonstrates that bat babies can learn the dialect of the colony by repeating noises from the other colony members.

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