Showing posts with label development. Show all posts
Showing posts with label development. Show all posts

Wednesday, March 29, 2017

Experts have discovered the first mutation in the development of human evolution.

Pixabay
For the first time, scientists have caught a glimpse of the earliest genetic mutations in human development.

Using whole genome sequencing, they wound back time on cell samples from adults and revealed what took place in the genome when they were still microscopic embryos. It turns out, our first two cells contribute to our development in very different ways.

Biology Reference

Mutations come in two forms: the hereditary ones we get from our parents, which can be found in virtually every cell of the body; and the acquired (or somatic) mutations that can occur at any stage of a person's life, including those very first days when the embryo is just starting to split into multiple cells.

Somatic mutations don't necessarily cause problems, but they can sometimes lead to cancer and other diseases. They also don't necessarily live in every cell (that's called mosaicism). 

We have a fairly murky understanding of the somatic mutations that happen during the earliest life stages, because we can't just watch that stuff happening in real time.

But now researchers have discovered a way to trace these mutations back to their first appearance.

Medical Xpress

"This is the first time that anyone has seen where mutations arise in the very early human development. It is like finding a needle in a haystack," says geneticist Young Seok Ju from the Wellcome Trust Sanger Institute in the UK and the Korea Advanced Institute of Science and Technology.


"There are just a handful of these mutations, compared with millions of inherited genetic variations, and finding them allowed us to track what happened during embryogenesis."

To find these mutations, the team analysed blood and tissue samples from 279 people with breast cancer. Using samples from cancer patients allowed them to test whether mutations were present in both normal blood and tissue, and in surgically removed tumour samples.

Since breast cancer tumours develop from a single cell, a somatic mutation would either be present in every tumour cell, or not at all, which gives a clue to its possible origins.

By tracking and comparing the spread of different mutations in these various tissue samples, the scientists verified a whopping 163 mutations that must have happened within the first few cell divisions of the persons' embryonic development.

University of South Florida

This gave them a unique insight into how early embryonic cells interact.

And that's not all - a statistical analysis revealed that when a fertilised egg divides for the first time, those two cells actually contribute building material for the rest of the body at different proportions.

It appears that one of the first two cells that make us up gives rise to 70 percent of the body tissue, while the other one chips in for the rest.

"We determined the relative contribution of the first embryonic cells to the adult blood cell pool and found one dominant cell - that led to 70 percent of the blood cells - and one minor cell," says molecular biologist Inigo Martincorena from the Sanger Institute.

indiatoday.intoday.in

"This opens an unprecedented window into the earliest stages of human development."

That's exciting, because having that window will let us discover even more about how humans develop and acquire various mutations from the get-go.

Even though the vast majority of mutations are random and harmless, occasionally they can affect an important gene, causing a developmental disorder or a disease.

"Essentially, the mutations are archaeological traces of embryonic development left in our adult tissues, so if we can find and interpret them, we can understand human embryology better," says lead researcher Mike Stratton, director of the Wellcome Trust Sanger Institute.

The researchers hope their discovery is just the first of many steps that will help us gain a better understanding of what happens to humans in the earliest days, when we're all nothing more than just a clump of cells.

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The above post is reprinted from materials provided by Sciencealert . Note: Materials may be edited for content and length.

Tuesday, February 14, 2017

The ambitious project of the American Natural History Museum through which all the Darwin's manuscripts will be published online

Three quarter length studio photo showing Darwin's characteristic large forehead and bushy eyebrows with deep set eyes, pug nose and mouth set in a determined look. He is bald on top, with dark hair and long side whiskers but no beard or moustache. His jacket is dark, with very wide lapels, and his trousers are a light check pattern. His shirt has an upright wing collar, and his cravat is tucked into his waistcoat which is a light fine checked pattern. Credit: wikipedia
While we can never pick Charles Darwin’s brilliant brain, a collaborative project is bringing us closer to his thoughts than ever before. As of his week, to mark the 155th anniversary of the publication of his iconic book On the Origin of Species, the Darwin Manuscripts Project has made a treasure chest of Darwin’s hand-written notes available online, allowing people across the globe to trace the development of the man that changed the way we look at the world.

The project, which is a collaboration between the American Museum of Natural History (AMNH) and Cambridge University Library, was founded in 2003, and set out to digitize and transcribe a collection of Darwin’s writings. So far, more than 16,000 high resolution images of the naturalist’s notes, scientific writings and sketches have been made publicly available, but the project is only halfway through.

In mid-July 1837 Darwin started his "B" notebook on Transmutation of Species, and on page 36 wrote "I think" above his first evolutionary tree. Credit: wikipedia
The documents hitherto released cover 25 years of Darwin’s life, “in which Darwin became convinced of evolution; discovered natural selection; developed explanations of adaptation, speciation, and a branching tree of life; and wrote the Origin,” according to the AMNH site.

You can even see a drawing by one of Darwin’s children, a scene of carrot and aubergine cavalry, which was sketched on the back of a page of the On the Origin of Species manuscript. You can also see his first use of “natural selection” as a scientific term, among many other things.

By June 2015, the archive will host more than 30,000 documents authored by Darwin between 1835 and 1882. The next release will cover the notes of his eight post-Origin books. The ultimate goal of the project, the AMNH explains, is to provide “access to the primary evidence for the birth and maturation of Darwin’s attempts to explore and explain the natural world.”

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Tuesday, November 22, 2016

Latimeria chalumnae "fish with legs from Indian Ocean" the mysterious living fossil reveals its secrets

In 1938, the world zoologists was shaken by a discovery without precedent: in the Indian Ocean was living creature amazing - a fish, no doubt, but one very strange fin provided with a kind of "paws", reminiscent of limbs terrestrial vertebrates.

 Mysterious animal has become one of the "stars" of the living world, where scientists have realized that they were dealing with a species surviving in a group of fish ancient considered missing ago 65 million years . And recently, the strange "fish with legs" back onto the world stage: geneticists have managed to decipher its genome and exciting source of new information about this "living fossil", about its relationship with other creatures and the evolution of the living world.

The discovery "fish with legs" in 1938 in response to a desire biologists old - to find the "missing link" between fish and tetrapods animals - four States - who colonized the terrestrial ago about 395 million years.

Even if further investigation questioned the new-found that fish were direct ancestor of tetrapods, discovery remains one extraordinary landmark in the history of zoology. Here, briefly, the story:

At December 23, 1938, Hendrik Goosen, captain of the fishing vessel Nerine, returned to port South African East London, after an expedition ocean fishing between the mouth of the river Chalumna and Ncera, on the coast west of the country . Captain customary when you have to catch fish most interesting to them and told a friend, Marjorie Courtenay-Latimer, who worked at the museum in East London. He called and this time, telling him that she had saved for a very special fish.


Marjorie Courtenay-Latimer was happy to receive the odd fish but although searched all the books they had available, failed to realize what species have to do. L has called one of her friends, chemistry professor James Leonard Brierley Smith, but it was left for Christmas vacation. Marjorie Courtenay-Latimer could not keep the whole fish in good condition, so it has entrusted to a taxidermist to be naturalized ( "stuffed"). 

After your holiday, Professor J. L. B. Smith immediately realized it had to do with something extraordinary: a representative group of ancient celacanţilor (Coelacanth) group considered extinct for 65 million years. Fish received scientific name of Latimeria chalumnae, after the name of Marjorie Courtenay-Latimer and the river Chalumna, and the news has gone around the world, putting them on fire biologists and paleontologists and fueling hopes of finding "missing link" in the chain of evolutionary what tie fish tetrapods.

Latimeria chalumnae photo: pinterest
A very special fish

After three quarters of a century of research, scientists have come to know something about Latimeria chalumnae; very little, yet enough to realize it's a very unusual creature.

Celacanţii now appeared approx. 400 million years ago and was thought to have disappeared at the end of the Cretaceous, now about 65 million years, in large extinction that took place then, that the dinosaurs disappeared. Indeed, the vast majority of species of this group have disappeared and is known only from fossil remains. But behold, two, at least, they have withstood time and catastrophes, surviving until today. In total, it has been described about 80 species of CELAC (including them and the two current).

Latimeria chalumnae is what is called in familiar language, a living fossil, and a newer term, "Lazarus taxon", named after the biblical character brought back to life. A Lazarus taxon is a species or taxonomic group (such as celacanţii) disappears at some point in the fossil record (and is therefore considered extinct), but then reappears after a long time. It is believed that these fish, celacanţii are extinct and yet they are still living, participating in biodiversity by two representatives known world.

Latimeria chalumnae fully deserves its fame it enjoys among biologists. It is a creature with many unusual features. For example, although he lives in the ocean, yea depths large, without leaving the surface, it is more akin to fish lung and tetrapods than fish actinopterigieni group of bony fish "ordinary" which constitutes 99% world fish fauna.


It has many unusual features of the skeleton, a heart made up differently than the other fish, a sort of vestigial lung, filled with fat, and other strange features that distinguish it from most of the fish world.

No its not like the eggs of other bony fish: almost all lay eggs "and what not" - a large number of eggs small size compared to adult fish. Instead, Latimeria chalumnae "factory" eggs the size of oranges, a huge fish (even a big fish like him, because can reach 1.8 meters in length). The species is ovoviviparity, that fertilized eggs develop in the mother's body - gestation is about. 1 year - coming out of the egg here, and the female, eventually eliminates hatched chicks ready ("give birth to live young" after the current expression).


And outside, the most striking feature are "paws" - muscular stalks that are attached to each of the fins and which give so strange appearance of "fish with legs".

But do not use these "legs" to walk on the ocean but swim or get carried currents, using their fins 8 for precise steering maneuvers. These fish live at depths of 100-500 meters; They are predators, feeding on other fish; day stay hidden in the cracks of rocks submarine or underwater caves and night out for food.

Latimeria chalumnae is considered an endangered species (like the Latimeria menadoensis), although they know so little about celacanţii lcururi living today, that the true status of the species is difficult to determine.


Before the scientific world to discover the fish and show interest in it, Latimeria chalumnae not have trouble living areas (Kenya, Tanzania, Mozambique, South Africa, Madagascar, Comoros). It was sometimes caught accidentally by local fishermen, but which threw him back into the water, do not consumed, because his flesh has an unpleasant taste and is somewhat toxic; It contains large amounts of fat, urea, esters of fatty acids and indigestible other substances that can cause diarrhea. But since biologists began marching after CELAC, fishermen do not take these fish, but looking to sell, a behavior that could lead to reduced populations of Latimeria chalumnae. Both this species and "sister" her Latimeria menadoensis, are today the subject of conservation programs aimed at maintaining balance populations. No longer need to stress how important it is to protect these species - "windows" distant past come to life on earth.

Genetics a living fossil

Recently, Latimeria chalumnae experienced a comeback to the forefront of research. An international group of scientists has succeeded in sequencing the genome of this creature, deciphering and "reading" the sequencing of genes that contain the genetic heritage of this animal and that could explain so some features of amazing and mysteries deeper evolution forms life on Earth.

Genome sequencing process itself was challenging in many respects. Chalumnae are rarely captured, threatened, so procuring tissue samples and extracting genetic material from them were difficult stages, not to mention the sequencing itself. But the effort, which involved experts from several countries and has united towards this common goal, and the international nature of this research project is one of its most valuable aspects, I think the scientists involved.

Since its discovery in 1938, biologists have wondered how survived Latimeria chalumnae until today, unchanged for many millions of years, and some have hypothesized that this fish is evolving unusually slowly, that its genes are "conservative" and undergoing changes at a pace slower than other species of creatures.

Latimeria chalumnae photo: commons.wikipedia.org

And indeed, analyzing genome species, scientists have confirmed this assumption:

"We found that, in general, genes [species Latimeria chalumnae] evolving significantly slower than with any fish and any vertebrate land that I studied," said Jessica Alföldi, the Broad Institute, one of the authors published in the journal Nature.

Genome sequencing has enabled researchers to investigate several issues that dated back a long time.


For example, celacanţii have certain characteristics reminiscent oddly specific than the animals living on land, including "paws" fins that resemble the limbs of tetrapods. Another strange group of fish present (called longfish, or long fish), and they have similar fin (picture below). It is likely that in one of these species of ancient fish "legs" to have evolved early amphibian tetrapods that came out of the water and stepped ashore, but until now, researchers had not been able determine which of the two groups - celacanţii or dipnoii - is the most promising candidate.

Now, in addition to whole genome sequenced (almost 3 billion letters - nitrogenous bases - the DNA of Latimeria chalumnae), researchers have studied the RNA CELAC both species compared with that of the longfish. This information allowed the comparison of homologous genes associated with the development and functioning of the brain, kidneys, liver, spleen and intestines from CELAC, lungfish and other 20 species of vertebrates. And the results showed that the genetic tetrapods are closer than fish longfish.

Therefore, the "missing link" between fish and tetrapods celacanţii not seem to be, they are not the direct ancestors of land vertebrates with four limbs.

However, celacanţii key pieces remain in the study process was essential that the conquest of land by vertebrate animals.

Even if dipnoii are closer to tetrapods land than celacanţii genome lungfish still remains a mystery: having 100 billion nitrogenous bases, is simply that too large for scientists to be able sequencing, assemble and analyze the means available now.

Instead, smaller genomes of African celacantului (comparable in size to the human one) suitable deciphering methods available today and provides valuable clues on the genetic changes that allowed tetrapods thrive on land.


Scientists have sought, on the one hand, to find out what genes have lost vertebrates when they took the life on land and on the other hand, what regulatory elements (parts of the genome that control where, when and to what extent are activated certain genes) have acquired.

And the findings were interesting as possible. Here are a few:

The sense of smell

Numerous regulatory changes have influenced genes involved in olfactory perception and detection of odors from the air. The scientists believe that when vertebrates had conquered land, they needed new ways to detect chemicals in this new environment.


Immunity

By comparing the genome with the genomes of terrestrial animals African celacantului, it was discovered a significant endorsement number of regulatory changes related to immune function, and scientists believe that these changes could be related to the body's response to new pathogens found in the terrestrial environment.


Evolutionary development
photo: rationalrevolution.net


Researchers have identified several key areas of the genome that could have been "co-opted" to control body tetrapods innovations, such as the formation of limbs and fingers or placental mammals. One of these areas, called HoxD contains a specific gene sequence that is common celacanţilor and tetrapods; it is likely that this sequence have been made by tetrapods, "in service" training and rear limbs.

Urea cycle

Fish body eliminates excess nitrogen from ammonia in water excretând; instead, terrestrial vertebrates (including humans) have a different mechanism of "management" of nitrogen: ammonia rapidly converted into urea, less toxic, through a succession of chemical reactions that constitute the urea cycle. The study compared the genomes, the CELAC and other vertebrates have been identified indications of evolution that led to the development of this mechanism, essential if living permanently outside the water: the researchers found that the most important genes involved in this cycle were tetrapods modified to allow them to solve the problem of excess nitrogen in the conditions of life on land.

But this is just the beginning discoveries. Celacanţilor genome could hold many other important clues to the evolution of tetrapods researching.


Much more great things to be learned about these fish; experts anticipated that future studies on immunity, physiology, respiration and other aspects of the biology of these creatures will lead us, finally, to a deeper understanding of the phenomenon of "great passage" from life in water at the shore - one of most fascinating episodes in the history of life on Earth.



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Saturday, November 19, 2016

6 major disadvantages of human evolution and devolution of Man

Elements of process of human evolution Vector photo: freedesignfile.com
Thinking about natural selection, we tend to think that is progress, just how strong and healthy people survived and were assured continuity. But in reality, the process is more complicated than that. For this to happen, natural selection did sometimes compromise and thus, people have developed certain traits that are, in fact, a real challenge in our lives.

The Progress of Technology and Devolution of Man Ascension Presents - Ascension Press

Updated 09/05/2020


3. Births are complicated
Compared species of monkeys, the human species is experiencing a very complicated birth, due to the fact that people pelvis is narrow compared to the size of the head and shoulders babies.

 "The pelvis is responsible for two people's positions, moving 2 feet, and the possibility of birth," 

said Karen Rosenberg, a paleontologist at the University of Delaware. Pelvic shape is given by a compromise between the two. 


Why Is Human Childbirth So Painful? American Scientist


People came with an interesting cultural answer to explain this difference between apes and humans. While birth is one solitary mammals, women receive a significant assistance. 

Moreover, researchers have argued that natural selection favored seeking assistance during birth and, although the reason seems much easier to overcome fear and pain, had an important role in reducing mortality.


1. We have back pain
Emergence of bipedalism was a major development in the evolution of human bipedal position by allowing us to travel long distances to use our hands as we move, but, however, is a disadvantage.


Slipped Disc and KST Chiropractic Care Keiran Chiropractic

If chimps and other quadrupeds akin to the human species, the backbone functions as a suspension bridge. 

"If the structure is placed horizontally in vertical position, it loses stability," 

said Jeremy DeSilva, a paleontologist at Dartmouth College. 

The simplest way to make a perfect structural backbone into a creature with a right upright as stacking the vertebrae, but the method for birth canal locks. Thus, the backbone must be involved in the process of bending, which can pave the way for an easier birth. The price you are paying back pain and movement disorders such as disk and fractures.


2. Anatomy feet I inherited from monkeys
If you analyze the existing prosthetic legs today, their structure resembles an ostrich leg. Human anatomy is not tracked because it is a little strange. 


Primate Feet Evolutionary Comps Pinterest
Rethinking the evolution of the human foot Journal of Experimental Biology - The Company of Biologists

DeSilva added that we inherited many elements of the anatomy of apes and legs are the best example. When we began on two legs, I did not need the flexibility of legs they have monkeys to climb trees, but because we inherited anatomy of apes, our legs and could be turned quite often, we face sprains and dislocations.


4. Crave for junk food
Sugar is an important element of energy, and the excess is converted into fat to cope with stressful moments in which we need more energy. 
Here's how eating sugar affects your body and brain The Independent 

Before the development of industry and agriculture when food sources were scarce or unreliable, sugar was necessary to survive. But nowadays, the sugar found in very many products, people exaggerate regarding its consumption. Thus, the current population is facing obesity and an increased risk of diabetes and high blood pressure.

From Diabetes to Athlete's Foot, Our Bodies Are Maladapted Discover Magazine


"The food industry has been very successful because we have the anatomical aspects of the Stone Age people who needed sugar, but nowadays this is our health", says Daniel Lieberman, a biologist at Harvard University.


5. We are dealing with mental illness
Natural selection has not removed the risk of mental illnesses such as schizophrenia and depression, although these conditions are associated with low birth rate. 

The Evolution of Depression Obsessive Compulsive Diary


Scientists have discovered that people with mental illness brothers who suffer from these diseases can result, however, children will have these problems. Other researchers have analyzed the origin of these diseases, concluding that they are closely linked to progress. 


13 common signs and symptoms of depression Medical News Today

For example, while some symptoms of depression can affect a person decisive, conditions that create an analytical style of thinking can be very productive in terms of solving problems.

6. The molars creates pain
When people began to be bipedal, there was a major transformation: our brain has increased. To accommodate the new dimensions of the brain, face shape changed and became more narrow jaws. For many, this meant that the three molars or wisdom teeth have not occurred for proper develop, so they were affected. 


Our Skulls Are Out-Evolving Us OneZero - Medium


If these teeth are not extracted, can be extremely painful and cause infections. However, natural selection is still in constant development, a genetic mutation that stops the emergence of wisdom teeth begin to form is becoming more widespread and more people no longer have three molars.

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