Showing posts with label life. Show all posts
Showing posts with label life. Show all posts

Tuesday, January 31, 2017

Researchers are close to discover the factor that determined the evolution of life on Earth

Credit: klss/Shutter Stock
Modern science has advanced significantly over the last couple of decades. We’ve managed to answer several of the world’s most long-standing questions, but some answers have continued to elude today’s scientists, including how life first emerged from Earth’s primordial soup.

However, a collaboration of physicists and biologists in Germany may have just found an explanation to how living cells first evolved.

In 1924, Russian biochemist Alexander Oparin proposed the idea that the first living cells could have evolved from liquid droplet protocells.

He believed these protocells could have acted as naturally forming, membrane-free containers that concentrated chemicals and fostered reactions.

Aleksandr Oparin (right) and Andrei Kursanov in the enzymology laboratory, 1938 Credit: wikipedia

In their hunt for the origin of life, a team of scientists from the Max Planck Institute for the Physics of Complex Systems and the Institute of Molecular Cell Biology and Genetics, both in Dresden, drew from Oparin’s hypothesis by studying the physics of 'chemically active' droplets (droplets that cycle molecules from the fluid in which they are surrounded).

Unlike a 'passive' type of droplet - like oil in water, which will just continue to grow as more oil is added to the mix - the researchers realised that chemically active droplets grow to a set size and then divide on their own accord.

This behaviour mimics the division of living cells and could, therefore, be the link between the nonliving primordial liquid soup from which life sprung and the living cells that eventually evolved to create all life on Earth.

"It makes it more plausible that there could have been a spontaneous emergence of life from nonliving soup," said Frank Jülicher, co-author of the study that appeared in the journal Nature Physics in December.

It’s an explanation of "how cells made daughters," said lead researcher David Zwicker. "This is, of course, key if you want to think about evolution."


Add a droplet of life

Some have speculated that these proto-cellular droplets might still be inside our system "like flies in life’s evolving amber".

To explore that hypothesis, the team studied the physics of centrosomes, which are organelles active in animal cell division that seem to behave like droplets.

Zwicker modelled an 'out-of-equilibrium' centrosome system that was chemically active and cycling constituent proteins continuously in and out of the surrounding liquid cytoplasm.

The proteins behave as either soluble (state A) or insoluble (state B).  An energy source can trigger a state reversal, causing the protein in state A to transform into state B by overcoming a chemical barrier. 

As long as there was an energy source, this chemical reaction could happen.

"In the context of early Earth, sunlight would be the driving force," Jülicher said.

Odarin famously believed that lighting strikes or geothermal activity on early Earth could’ve triggered these chemical reactions from the liquid protocells.

This constant chemical influx and efflux would only counterbalance itself, according to Zwicker, when a certain volume was reached by the active droplet, which would then stop growing.

Typically, the droplets could grow to about tens or hundreds of microns, according to Zwicker’s simulations. That’s about the same scale as cells.

The next step is to identify when these protocells developed the ability to transfer genetic information.

Jülicher and his colleagues believe that somewhere along the way, the cells developed membranes, perhaps from the crusts they naturally develop out of lipids that prefer to remain at the intersection of the droplet and outside liquid.

Credit: Lucy Reading-Ikkanda/Quanta Magazine
As a kind of protection for what’s within the cells, genes could’ve begun coding for these membranes. But knowing anything for sure still depends on more experiments.

So, if the very complex life on Earth could have begun from something as seemingly inconspicuous as liquid droplets, perhaps the same could be said of possible extraterrestrial life?

In any case, this research could help us understand how life as we know it started from the simplest material and how the chemical processes that made our lives possible emerged from these.

The energy and time it took for a protocell to develop into a living cell, and the living cells into more complex parts, until finally developing into an even more complex organism is baffling.

The process itself took billions of years to happen, so it’s not surprising we need some significant time to fully understand it.

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Monday, January 30, 2017

Researchers have found another planet (Wolf 1061c) that can sustain life: Located just 14 light-years away

Credit: The Wolf 1061 system. Credit: UNSW Sydney
An exoplanet with the prime conditions for life could be located just 14 light-years away, scientists report, in one of the closest neighbouring solar systems to our own.

New research suggests that a planet circling the star Wolf 1061 falls within what's called the star's habitable zone - making it one of the most likely neighbouring candidates for a planet that supports life.


This artist's concept illustrates a young, red dwarf star surrounded by three planets. Credit: wikipedia

"The Wolf 1061 system is important, because it is so close, and that gives other opportunities to do follow-up studies to see if it does indeed have life," says lead researcher Stephen Kane from San Francisco State University.

There are three planets orbiting Wolf 1061, but the planet Wolf 1061c is of particular interest.

Discovered in 2015, and with an estimated mass that's more than four times Earth's mass, Wolf 1061c is located right in the middle of Wolf 1061's habitable zone: the region where a planet's distance from its host star makes conditions suitable for liquid water and other life-supporting elements.

Our own Solar System runs by the same rules: conditions on Earth are just right for liquid water, whereas Mars is too cold.

To investigate whether Wolf 1061c might offer the same kind of habitability, the researchers analysed seven years of luminosity data from its host star and ran calculations of the exoplanet's orbit to figure out what the temperature and pressure on the surface could be.


The findings add weight to previous speculation that Wolf 1061c could be habitable – but just because the exoplanet is within a habitable zone, that doesn't necessarily mean it's one like Earth's.

The new data suggest that Wolf 1061c could have an atmosphere similar to what Venus had in its earliest days, meaning that any liquid water on the planet might not stick around for long. 

Previous research has suggested that high temperatures caused excessive water evaporation on Venus, and the newly formed water vapour in the atmosphere increased temperatures even further - a process known as a runaway greenhouse effect.

Now, the team thinks the same thing could be happening on Wolf 1061c, which is "close enough to the star that it's looking suspiciously like a runaway greenhouse", says Kane.

In addition, Wolf 1061c's orbit of its star varies much more quickly than Earth's orbit of the Sun, which would lead to chaotic climate changes such as a rapidly encroaching ice age (or warm phase).

So, is there life on Wolf 1061c?

We don't yet know, and to find out, we'll need more detailed measurements than what we have so far. To that end, Kane says NASA's James Webb telescope is one of the ways we'll be able to learn more about the exoplanet in the future.

Wolf 1061c Credit: Centauri Dreams

The telescope is launching next year, and its advanced optics should be able to reveal the atmospheric conditions on Wolf 1061c, and give us a better idea about whether water (and life) could really exist there.

Meanwhile, scientists from METI - the Messaging Extraterrestrial Intelligence organisation - are also interested in Wolf 1061c, and have been keeping a close eye on the exoplanet as they try to reach out to any alien life that might exist beyond our Solar System.

"I'm not holding my breath that we'll ever find evidence of life on Wolf 1061c," METI president Doug Vakoch told Rae Paoletta at Gizmodo.

"But the fact that there's a roughly Earth-like planet in the habitable zone of a star so close to our own Solar System is a good omen as we continue our search for life on other planets."

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Wednesday, January 25, 2017

A dog saved his master's life after the man fell on ice and broke his neck and spent 20 hours in the cold

Source: Personal Archive
His action can be described as a heroic act, a golden retriever managed to save his master's life after he fell on ice and broke his neck.

New Year's Eve, Bob, a man of 64 years in Petoskey, decided to go outside to bring firewood. Dressed only in a shirt, pants and shoes on their feet, the man slipped on ice and because of the coup could not move, notes Oddity Central.

The man began to shout for help, but his neighbor's house is about half a kilometer away, at that hour was not someone who could help him. Fortunately, his dog five years old came to help him.

Source: Personal Archive
,, I screamed for help, but the neighbor is at a distance from my house. By morning I lost my voice almost completely, but Kelsey (dog) never stopped barking. A barking for help and did not go near me kept me warm and kept me awake, '' says Bob.


Snow man remained paralyzed for about 20 hours at a temperature of -4 ° C. Kelsey has done everything possible for the man to stay alive, including was sitting on his chest to keep them warm. After 19 hours, Bob and lost consciousness, but Kelsey continued barking and yelling for help.

Source: Personal Archive

Despite efforts dog, Bob would be frozen in the snow if his neighbor had not heard Rick's desperate howling dog. The man was found at 6: 30 p.m. New Year's Day and was taken to hospital. Column injuries can result in permanent paralysis, but Bob was lucky, before the operation was warned that it might not be able to go, but the next morning he managed to move his arms and legs.


Bob and Kelsey are inseparable, they remain together even when the husband go shopping.

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Thursday, January 12, 2017

Henry VIII: One of the most controversial figures in European history (Explosive anger, headaches, insomnia, memory problems, inability to control impulses, and even impotence)

Henry, c. 1531 photo: wikipedia
Updated 12/05/2020

He is one of the most controversial figures in European history, best remembered for executing two of his six wives and for breaking away from the Catholic Church in what became known as the Reformation. Now, a new study concluding that Henry VIII suffered brain damage caused by a jousting injury offers the strongest explanation of his erratic behaviour “short of miraculously finding his preserved brain in jar,” its lead author has claimed.

Henry VIII (1491-1547) - HistoryExtra
According to a team of US researchers led by Dr Arash Salardini, behavioural neurologist and co-director of the Yale Memory Clinic, the Tudor monarch may have suffered repeated traumatic brain injuries similar to those experienced by American Football players. This, researchers claim, would explain Henry’s explosive anger, headaches, insomnia, memory problems, inability to control impulses, and even impotence.

Published by Yale Memory Clinic, a memory and cognitive clinic at Yale School of Medicine, the study claims that “Henry suffered from many symptoms which can unambiguously be attributed to traumatic brain injury”.

Arash Salardini Yale School of Medicine - Yale University


In an interview with History Extra, Dr Salardini said: “I thought [Henry] was a man with personality disorder, possibly narcissistic with sociopathic tendencies who had some form of mood disorder later on his life and took it out on his subjects. That is not what I ended up finding.”

Dr Salardini said the researchers went into the study with an open mind, originally writing it as a case report exploring the probability of the various diseases that Henry might have suffered. However, Salardini and his team were surprised to find that “the picture was so consistent with the sequel of chronic concussion, intellectual honesty would dictate writing about traumatic brain injury in Henry.”

Taking a neurological, rather than a historical, approach, the researchers “gathered data about the patient and localised most of the symptoms to the frontosubcortical circuitry neural pathways that affect memory, organisation and behavioural control]and the pituitary the gland that controls hormones”.


From this “an anatomical and pathologically consistent medical timeline emerged which I think should be the strongest evidence in support of the concussion, short of miraculously finding [Henry VIII’s] preserved brain in a jar”, said Salardini.


King Henry VIII in a procession on his way to a tournament clad in armour and riding a horse, 1511. He is accompanied by courtiers who are holding the flaps of a tent so that the king can be seen. (Photo by Hulton Archive/Getty Images)
In the paper, researchers dismissed a number of theories that have been previously been put forward to explain Henry’s changed behaviour from 1536, after which time it is argued that Henry “became cruel, petty and tyrannical”. These include diabetes, hypothyroidism and psychosis – none of which, researchers claim, “can account for the whole picture”.

Instead the paper argues that “traumatic brain injury could have caused diffuse axonal injury a common brain injury in which the wires that connect the cells in the brain become damaged which led to a change in the psychological makeup of Henry, and traumatic brain injury may have contributed to his other medical issues by causing pituitary dysfunction and endocrinopathies (hormone problems).”

Did the "Dogs Lick Henry's Blood" After His Funeral?

The paper explains: “We know of at least three major head injuries in Henry’s life. He may have had headaches and more subtle changes to his personality after his first head injury [in March 1524, when the king was unseated after a jousting lance entered his open visor], but there is a marked stepwise change in him after 1536. It is entirely plausible, though perhaps not provable, that repeated traumatic brain injury lead to changes in Henry’s personality.”

The team examined Henry’s memory problems, headaches, insomnia and lack of impulse control. Of his memory problems, researchers said: “In July 1536, Henry’s son and possible heir Henry FitzRoy, Duke of Richmond and Somerset, died of tuberculosis. He was buried in near-secret in the presence of his father-in-law the Duke of Norfolk, and two other personages, by the king’s own instructions. Yet in a few days Henry appears to have forgotten his own role in the funeral and was accusing the Duke of Norfolk of inappropriate behaviour towards FitzRoy.


Was Henry FitzRoy, the illegitimate son of Henry VIII, murdered? Spartacus Educational


“There is another illustrative episode which occurred in 1546: the king loved religious debates and during one acrimonious argument between Catherine Parr and [bishop and statesman] Stephen Gardiner he unreasonably ordered the transportation of the queen to the Tower of London. The next day Henry appears to have forgotten about the incident and was consoling his distraught wife. When the soldiers arrived to take her away, he could not remember the original orders he had given and had to be prompted to remember the episode. When he remembered he flew into another fit of rage.”
Armour for field and tournament of King Henry VIII, 1540 (metal), possibly intended for the May Day tournament, 15 May 1540. Decorated by Giovanni di Maiano or Francis Quelblaunce; based on designs by Hans Holbein the Younger. (Royal Armouries, Leeds, UK / Bridgeman Images)

Turning to Henry’s behaviour, the researchers claim: “The irascibility and changeability of Henry was a source of constant anxiety for Tudor courtiers. Several ambassadors noted the unpredictability of Henry, who was often furious for reasons not immediately obvious to his ministers and advisers.” Henry was also “known to suffer from bouts of ‘mal d’esprit’ or depression with ‘self-pity and more than traces of gloom’”, the paper says.

Discussing Henry’s possible impotence, the researchers cite “rumours which apparently originated with Anne Boleyn and her brother according to Chapuys, the imperial ambassador for the Holy Roman Empire. Anne and George Boleyn were accused of ridiculing the king. Anne appears to have told her sister-in-law that Henry ‘was not adept in the matter of coupling with a woman and that he had neither vertu (skill) nor puissance (vigour)’”.


Anne Boleyn - Wikipedia
A Death Warrant from King Henry VIII Stephen Liddell


The paper also draws on “the inability of Henry to consummate his marriage to Anne of Cleves in 1540. Various excuses were made from ‘misliking of her body for the hanging of her breast and the looseness of her flesh’, to the charge that the king was duped by an unnecessarily complimentary portrait of Anne.” Impotence and weight gain, Dr Salardini told History Extra, “also fit with a growth hormone and sex hormone deficiency which is a known, but less common, manifestation of traumatic brain injury.”

In our interview with Salardini we asked how Henry VIII’s brain injury would be treated were he alive today. “The best treatment for traumatic brain injury is prevention, so wearing helmets was as important then as it is now,” he said. “It was advisable for the king, who seemed particularly accident-prone, to choose a more gentle sport.  

“Secondly, early management of mood regulation appears to be a useful intervention. If St John's wort was available in Henry's time then I would put him on a gram per day. He would also need to take up the Mediterranean diet of his enemies and have complex carbohydrates, monounsaturates and low-fat diet.




“Our knowledge has come a long way since the 16th century, but much of the therapeutics that we have today could have probably be reproduced back then.”


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Tuesday, January 10, 2017

Human Appendix could have an important biological function and evolution of human






























Updated 12/05/2020

Normally, the appendix sits in the lower right abdomen. The function of the appendix is unknown. One theory is that the appendix acts as a storehouse for good bacteria, “rebooting” the digestive system after diarrheal illnesses. Other experts believe the appendix is just a useless remnant from our evolutionary past

Illustration - Acute appendicitis, 3D illustration of human body with inflammed appendix and light micrograph, photo under microscope


One of the first things you learn about evolution in school is that the human body has a number of 
'vestigial' parts - appendix, wisdom teeth, tailbone - that gradually fell out of use as we adapted to more advanced lifestyles than our primitive ancestors.




But while our wisdom teeth are definitely causing us more pain than good right now, the human appendix could be more than just a ticking time bomb sitting in your abdomen. A new study says it could actually serve an important biological function - and one that humans aren’t ready to give up.

Researchers from Midwestern University traced the appearance, disappearance, and reemergence of the appendix in several mammal lineages over the past 11 million years, to figure out how many times it was cut and bought back due to evolutionary pressures. 


Arteries of cecum and appendix (appendix labeled as vermiform process at lower right) photo: wikipedia

They found that the organ has evolved at least 29 times - possibly as many as 41 times - throughout mammalian evolution, and has only been lost a maximum of 12 times.

"This statistically strong evidence that the appearance of the appendix is significantly more probable than its loss suggests a selective value for this structure," the team reports.

"Thus, we can confidently reject the hypothesis that the appendix is a vestigial structure with little adaptive value or function among mammals."


Appendicitis - 3D scene - Mozaik Digital Learning mozaWeb


If the appendix has been making multiple comebacks in humans and other mammals across millions of years, what exactly is it good for?


Conventional wisdom states that the human appendix is the shrunken remnant of an organ that once played an important role in a remote ancestor of humans millions of years ago.

The reason it still exists - and occasionally has to be removed due to potentially fatal inflammation and rupturing - is that it’s too 'evolutionarily expensive' to get rid of altogether. There's little evolutionary pressure to lose such a significant part of the body.


Cecal Appendix Magnificatio


In other words, the amount of effort it would take for the human species to gradually lose the appendix though thousands of years of evolution is just not worth it, because in the majority of people, it just sits there not hurting anyone.

But what if it's doing more than just sitting there?

For years now, researchers have been searching for a possible function of the human appendix, and the leading hypothesis is that it’s a haven for 'good' intestinal bacteria that help us keep certain infections at bay.

One of the best pieces of evidence we’ve had for this suggestion is a 2012 study, which found that individuals without an appendix were four times more likely to have a recurrence of Clostridium difficile colitis - a bacterial infection that causes diarrhoea, fever, nausea, and abdominal pain.

A possible function of the human appendix is a "safe house" for beneficial bacteria in the recovery from diarrhea. photo: wikipedia

As Scientific American explains, recurrence in individuals with their appendix intact occurred in 11 percent of cases reported at the Winthrop-University Hospital in New York, while recurrence in individuals without their appendix occurred in 48 percent of cases.

Now the Midwestern University team has taken a different approach to arrive at the same conclusion.

First they gathered data on the presence or absence of the appendix and other gastrointestinal and environmental traits across 533 mammal species over the past 11,244 million years.

Onto each genetic tree for these various lineages, they traced how the appendix evolved through years of evolution, and found that once the organ appeared, it was almost never lost.

"The appendix has evolved independently in several mammal lineages, over 30 separate times, and almost never disappears from a lineage once it has appeared," the team explains in a press statement.

"This suggests that the appendix likely serves an adaptive purpose."


Microscope Picture Human Appendix Stock Photo Shutterstock

Next, the researchers considered various ecological factors - the species' social behaviours, diet, habitat, and local climate - to figure out what that "adaptive purpose" could be.

They found that species that had retained or regained an appendix had higher average concentrations of lymphoid (immune) tissue in the cecum - a small pouch connected to the junction of the small and large intestines.

This suggests that the appendix could play an important role in a species' immune system, particularly as lymphatic tissue is known to stimulate the growth of certain types of beneficial gut bacteria.

"While these links between the appendix and cecal factors have been suggested before, this is the first time they have been statistically validated," the team concludes in their paper.

"The association between appendix presence and lymphoid tissue provides support for the immune hypothesis of appendix evolution."

photo: medicinenet.com

The study is far from conclusive, but offers a different perspective on the hypothesis that humans have been keeping the appendix around for its immune support this whole time.

The challenge now is to prove it, which is easier said than done, seeing as most people who have had their appendix removed don't suffer from any adverse long-term effects.




But it could be that when people get their appendix removed, immune cell-producing tissues in the cecum and elsewhere in the body step up to compensate for the loss.

One thing's for sure in all of this - while we're probably not going to regain our tails, it's too soon to write off the appendix just yet.

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Wednesday, January 4, 2017

The son of an uneducated peasant, became one of the most brilliant scientific minds of all time

Newton, by William Blake; here, Newton is depicted critically as a "divine geometer". This copy of the work is currently held by the Tate Collection photo: wikipedia
Updated today 16/05/2020

Sir Isaac Newton 25 December 1642 – 20 March 1726 was an English mathematician, astronomer, and physicist (described in his own day as a "natural philosopher") who is widely recognised as one of the most influential scientists of all time and a key figure in the scientific revolution. 

His book Philosophiæ Naturalis Principia Mathematica ("Mathematical Principles of Natural Philosophy"), first published in 1687, laid the foundations of classical mechanics. Newton also made seminal contributions to optics, and he shares credit with Gottfried Wilhelm Leibniz for developing the infinitesimal calculus.


Isaac Newton. The Mathematical Principles of Natural Philosophy Heritage Auctions

Newton's own copy of his Principia, with hand-written corrections for the second edition photo: wikipedia

Newton's Principia formulated the laws of motion and universal gravitation that dominated scientists' view of the physical universe for the next three centuries. 

By deriving Kepler's laws of planetary motion from his mathematical description of gravity, and then using the same principles to account for the trajectories of comets, the tides, the precession of the equinoxes, and other phenomena, Newton removed the last doubts about the validity of the heliocentric model of the Solar System and demonstrated that the motion of objects on Earth and of celestial bodies could be accounted for by the same principles. 


Adăugați o legendă

Newton's theoretical prediction that Earth is shaped as an oblate spheroid was later vindicated by the geodetic measurements of Maupertuis, La Condamine, and others, thus convincing most Continental European scientists of the superiority of Newtonian mechanics over the earlier system of Descartes.



Descartes_Systems_Group

Newton also built the first practical reflecting telescope and developed a sophisticated theory of colour based on the observation that a prism decomposes white light into the colours of the visible spectrum. 


Illustration of a dispersive prism decomposing white light into the colours of the spectrum, as discovered by Newton photo: wikipedia

Newton's work on light was collected in his highly influential book Opticks, first published in 1704. He also formulated an empirical law of cooling, made the first theoretical calculation of the speed of sound, and introduced the notion of a Newtonian fluid. 

In addition to his work on calculus, as a mathematician Newton contributed to the study of power series, generalised the binomial theorem to non-integer exponents, developed a method for approximating the roots of a function, and classified most of the cubic plane curves.


The first, 1704, edition of Opticks: or, a treatise of the reflexions, refractions, inflexions and colours of light. Author Isaac Newton image wikipedia
John's College, Cambridge Wikimedia Commons

Newton was a fellow of Trinity College and the second Lucasian Professor of Mathematics at the University of Cambridge. He was a devout but unorthodox Christian, who privately rejected the doctrine of the Trinity and who, unusually for a member of the Cambridge faculty of the day, refused to take holy orders in the Church of England



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Beyond his work on the mathematical sciences, Newton dedicated much of his time to the study of alchemy and biblical chronology, but most of his work in those areas remained unpublished until long after his death.  

You may also like: Top 8: Looking for the elixir of immortality.

Politically and personally tied to the Whig party, Newton served two brief terms as Member of Parliament for the University of Cambridge, in 1689–90 and 1701–02. He was knighted by Queen Anne in 1705 and he spent the last three decades of his life in London, where he served as Warden (1696–1700) and Master (1700–1727) of the Royal Mint, as well as president of the Royal Society (1703–1727).


Queen Anne in 1705 image wikipedia






Black Death contributed to one of the most important theories in History

In 1665, following an outbreak of bubonic plague in England, Cambridge University was closed, forcing Newton to return home at Woolsthorpe Manor. While there was in is garden, he saw an apple fall from a tree, an event that inspired him to formulate the famous law of universal gravitation. Newton later told him William Stukeley's incident, the author of his memoirs.


Original tree that inspired Sir Isaac Newton to consider gravitation photo: UniverseToday.com


The tree exists today, and some apple that Newton saw him falling that day, in the garden Woolsthorpe Manor was taken into space in 2010 aboard the Atlantis space.


He was interested in alchemy


Isaac Newton was passionate about alchemy. He has devoted a great deal of time trying to create "Philosopher's Stone" which he believed he had the power to turn other metals into gold and to make people immortal.

photo: likesuccess.com

4. Newton was  a member of parliament

Between 1689 and 1690, Newton was a member of Parliament representing Cambridge University. His contribution was limited. He had spoken only once, when he asked a bailiff to close the window because it was cool. At that time he spent in London, Newton was met with several influential figures of the time, including King William III and philosopher John Locke.


William III of Orange, King of England & Scotland 1650 - 1702 Pinterest




5. He was knighted

In 1705 Newton was knighted by Queen Anne. At the time, he was a wealthy man after his mother inherited properties and published two papers bedside. Newton was buried in Westminster Abbey, the burial place of British monarchs, and other notable individuals who do not belong to the royal family (Charles Darwin, Charles Dickens or explorer David Livingstone).








Invenit Mundo presents the main historical significance of the day January 4:

1809 - He was born Louis Braille, inventor of the writing system for the blind (Braille, 1829) (d. January 6, 1852)



1841 - was born chemist Petru Poni, leading representative of the Romanian school of chemistry. (D. April 2, 1925)



1877 - was born in Brasov, Sextil Puşcariu writer, famous philologist and literary historian, member of the Romanian Academy (d. 1948).

1914 - In Romania formed a government headed by liberal I C I Brătianu, which lasted until January 29, 1918.

1926 - Romania's Parliament voted to accept giving up the throne Prince Charles ( "Act of January 4") and the recognition of his son, Prince Michael, as crown prince of Romania.

1954 - He died poet Elena Farago (Elena Paximade) ( "Puss punished", "Gândacelul" "lame puppy") (n. 29 martie1878)

1960 - A French writer Albert Camus died.

1970 - The actor died Mişu Fotino (father), founder of the State Theatre in Brasov. (N. 1886)

1990 - It was announced the abolition of the State Security Department.

1990 - Held the first press conference of the Group for Social Dialogue (GDS), consisting of personalities from the cultural, artistic and scientific.

1994 - At a meeting of Liberal leaders Horia Rusu and Dinu Patriciu, the PL-93 Steering Committee adopted an "open letter to all the liberal parties" document proposing a "unification through competition liberals".

1996 - Mircea Geoana received the approval of the US administration to take over the post of ambassador to Washington.

1998 - died composer Basil Veselovsky ( "Hope Street," "The sea would know it," "I deserve")

1999 - The miners in the Jiu Valley have joined the general strike, demanding urgent settlement of 30 claims regarding the state of the mining industry.

2004 - The Great Gathering traditional Afghan Loya Jirga adopted the new Constitution "Islamic Republic of Afghanistan".

2006 - He died in Montreal with Alzheimer's, Romanian-born Canadian poet Irving Layton Peter (Israel Pincu Lazarovitch). Since the 40s was recognized as one of the most prolific, versatile, revolutionary and controversial poets of school "modern" Canadian. S reputation was consolidated in the 50s and 60s, especially after the publication of "A Red Carpet for the Sun" in 1959. One of his students was famous Leonard Cohen, musician, writer, promoter of Canadian postmodernism. (B. March 12, 1912, Targu Neamt, Romania).

2008 - The biggest Roma camp in France, located on the outskirts of Paris (Saint-Ouen), was disbanded




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