Showing posts with label evolution. Show all posts
Showing posts with label evolution. Show all posts

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, February 7, 2017

Deep-sea dragonfish, one of the most bizarre creatures of the Sea - VIDEO

Dragonfish are the stuff of nightmares with their oversized jaws and rows of fanglike teeth. The deep sea creatures may be only several centimeters long, but they can trap and swallow sizeable prey. How these tiny terrors manage to open their mouths so wide has puzzled scientists, until now.

In most fish, the skull is fused to the backbone, limiting their gape. But a barbeled dragonfish can pop open its jaw like a Pez dispenser — up to 120 degrees — thanks to a soft tissue joint that connects the fish’s head and spine, researchers report February 1 in PLOS ONE. 

BIG GULP This X-ray image reveals that a dragonfish has eaten a large lanternfish in a single gulp.
Nalani Schnell of the National Museum of Natural History in Paris and Dave Johnson of the National Museum of Natural History in Washington, D.C., examined preserved specimens of nine barbeled dragonfish genera. 

Five had a flexible rod, called a notochord, covered by special connective tissue that bridged their vertebrae and skulls. When Schnell and Johnson opened the mouths of the fish, the connective tissue stretched out. The joint may provide just enough give for dragonfish to swallow whole crustaceans and lanternfish almost as long as they are.



OPEN WIDE  Some species of dragonfish (Eustomias obscurus shown) open their jaws like Pez dispensers, thanks to a flexible joint at the base of their skulls. The joint may allow the fish to swallow bigger prey, which they trap with their fanglike teeth.

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Saturday, February 4, 2017

The Biggest Bird in History. It was bigger than a horse and weighed 650 kilograms

Dromornis Credit: thevintagenews
Measuring 3 meters in height and weighing up to 65kg, Dromornis is a genus of prehistoric giant birds. Dromornis  belonged to Dromornithidae,  a family of giant birds that lived 8 million years ago until less than  30,000 years ago. Since millions of years by this time, Australia had been separated from the big southern landmass of Gondwana. Typical for animals in Australia is the fact that they had evolved slowly, completely isolated from the animals of the other continents.


A fossil (cast) of the extinct Dromornis stirtoni from Australia. Photographed at Dinoday 2009 By Kevmin – Own work, CC BY-SA 3.0
Because of the very poor fossil record of  D. australis (the type species of the genus) and a huge time gap between the  two Dromornis species, D. stirtoni may ultimately be reassigned to the genus of Bullockornis.

Sometimes referred to as  “Stirton’s thunder birds” or Mihirung birds, Dromornis stirtoni  was around 3 meters (9.8 ft) tall and weighed up to 650kg. With a long neck and stub-like wings, the giant birds were taller then Aepyornis and heavier than the Moa. Even though Dromornis stirtoni  had really strong and powerful legs it is not believed to have been a fast runner.The bird’s beak was large and immensely strong, leading some researchers to hypothesize that it was a herbivore that used its beak to shear through tough plant stalks.  However, others  theories suggest that the bird was a carnivore, due to the size of the bird’s beak.


D. stirtoni, artist’s impression Photo Credit


Dromornis was sexually dimorphic. Males were more robust and heavier, though not necessarily taller, than females.It inhabited subtropical open woodlands in Australia during the Late Miocene to the early Pliocene. There were forests and a constant water supply at Alcoota, one area where the Dromornis birds lived, albeit the climate was very changeable.


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Sunday, January 15, 2017

Vampire bats have begun to feed on human blood for the first time. '' We are surprised ''

Brazilian vampire bat photo: sciencealert
As intimidating as they might sound, vampire bats aren’t usually in the business of bothering humans for their blood. In fact, the hairy-legged vampire bat species was thought to feed almost exclusively on birds.

But researchers have discovered that hairy-legged vampire bats in north-east Brazil have managed to kick things up a notch - they’ve been caught feeding on humans by night, and that’s something no one even thought was possible.

As intimidating as they might sound, vampire bats aren’t usually in the business of bothering humans for their blood. In fact, the hairy-legged vampire bat species was thought to feed almost exclusively on birds.

But researchers have discovered that hairy-legged vampire bats in north-east Brazil have managed to kick things up a notch - they’ve been caught feeding on humans by night, and that’s something no one even thought was possible.

What should theoretically keep humans safe from these bird-targeting bats is the fact that feeding on blood is an extremely difficult adaptation for a mammal to achieve.

Photo: carnivoraforum.com

Extreme morphological, physiological, and behavioural adaptations are required for a species to evolve as blood-feeders, and suddenly switching from avian to mammal blood? That didn’t even seem possible.



As Bernard and his team report:

"Mammal and bird blood differ in their composition, mainly in terms of nutrient composition. Bird blood, for example, has higher amount of water and fat, whereas mammal blood is rich in dry matter, mainly proteins. 

Studies on the feeding physiology of the common vampire bat D. rotundus showed that this species has physiological characteristics that allow higher efficiency in protein processing. 

On the other hand, species with a preference for bird blood, such as D. youngi and D. ecaudata, have higher ability to process and use large amounts of fat found in the blood of their prey."


And it’s not just the theoretical challenges that appear to be involved in switching between a diet of avian blood and a diet of mammal blood.

As Sandrine Ceurstemont reports for New Scientist, previous experiments have shown that when only pig and goat blood was made available to bats that were used to bird blood, many of them opted to fast rather than diversify their diet - and sometimes even starved to death.

A vampire bat skeleton, showing the distinctive incisors and canines photo: wikipedia

But when Bernard and his team investigated the diets of a colony of hairy-legged vampire bats in the Caatinga dry forests of northeastern Brazil, they found something strange.

Genetic analysis of 15 faecal samples contained bird DNA as expected, but 3 of those samples contained a mixture of human and bird DNA - evidence that these particular individuals had been feeding on both.

Interestingly, the team notes that these bats’ most common grey - the white-browed guan, the yellow-legged tinamou, and the picazuro pigeon - have been disappearing in the area due to deforestation and hunting. 

Domesticated birds such as chickens presented an even more tempting option in the face of large wild birds declining, and because many of the locals keep their chickens in close contact, the desperate bats developed a taste for both.

"House conditions in Catimbau are usually poor, and domestic animals are usually in close contact with humans, what may explain the occurrence of both chicken and human blood in our samples," the team reports.

There are a lot of open questions here - the biggest one being exactly how this colony of bats is able to process the protein-heavy blood of humans, when they’ve evolved to digest the fat-rich blood of birds instead.

The other question is if this could pose a serious risk to their new human hosts. 

As Daniel Becker from the University of Georgia, who wasn’t involved in the study, told New Scientist, the species has been found to carry the hantavirus in the past - and this can be fatal to humans who are infected by it.

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

Saturday, January 7, 2017

A new organ was discovered in the human body and helps in better understanding evolution, devolution of man

Anatomical diagram of the mesentery. J Calvin Coffey/D Peter O'Leary/Henry Vandyke Carter/Lancet




























Updated 14/05/2020

Last year – although a rather grim one by other measures – was a splendid one for research. From gravitational waves to cooing dinosaurs, we’ve uncovered a lot about the world around us, but as a remarkable new study has revealed, there’s a lot within us we’ve yet to discover too.

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Writing in The Lancet Gastroenterology & Hepatology, scientists have officially announced the discovery of a new organ inside the human body. That’s right, there’s a brand new organ hiding in our abdomen and it’s only just been classified.

Known as the mesentery (meaning “in the middle of the intestines”), it can be found in our digestive systems. Leonardo da Vinci actually gave one of the first descriptions of it back in the day, but until around 2012 it was thought to be a series of separate structures keeping the intestines attached to the abdominal wall, like a series of support girders.


Mesentery - Mayo Clinic

A team from the University of Limerick, however, used complex microscopy work to confirm that the structures are all interconnected and appear to be part of one overall structure. Much of the research was conducted on patients undergoing an operation to remove most or all of their colon.

Having been taught to medical students since 2012 as being a new organ, it has now been added to the famous Gray’s Anatomy textbook and described in this new paper.

Gray's Anatomy (Barnes & Noble Collectible Editions)

“In the paper, which has been peer reviewed and assessed, we are now saying we have an organ in the body which hasn’t been acknowledged as such to date,”
Calvin Coffey, a professor of surgery at the University of Limerick and coordinating author of the study, said in a statement.


Rather wonderfully though, apart from its supportive nature, medical experts aren’t any the wiser as to what the mesentery actually does. Its proximity to the intestines may give researchers a hint, but no definitive conclusions have yet been made.


New Organ Evolution

“We have established anatomy and the structure. The next step is the function,” Coffey added. 

“If you understand the function you can identify abnormal function, and then you have disease. Put them all together and you have the field of mesenteric science…the basis for a whole new area of science.”


Mesenteric Evolvinglymph nodes Pinterest

Blood vessels, nerves, and lymphatic tubes – carrying a blood plasma-like fluid that is rich in white blood cells – go via the mesentery to the intestines, so it clearly has an active function. Far more research needs to be done to actually find out what it does, though.

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Tuesday, December 13, 2016

Chandra X-Ray Observatory Recently discovered new SPT0346-52. Galaxy is undergoing an extraordinary boom of stellar construction, clues to universe’s evolution and big bang

The distorted galaxy in the simulation results from a collision between two galaxies, followed by them merging. Astronomers think such a merger could be the reason why SPT0346-52 is having such a boom of stellar construction. Once the two galaxies collide, gas near the center of the merged galaxy (shown as the bright region in the center of the simulation) is compressed, producing a burst of new stars. The composite inset shows X-ray data from Chandra (blue), short wavelength infrared data from Hubble (green), infrared light from Spitzer (red) at longer wavelengths, and infrared data from ALMA (magenta) at even longer wavelengths. (The light from SPT0346-52 is distorted and magnified by the gravity of an intervening galaxy, producing three elongated images in the ALMA data located near the center of the image. SPT0346-52 is not visible in the Hubble or Spitzer data, but the intervening galaxy causing the gravitational lensing is detected.) There is no blue at the center of the image, showing that Chandra did not detect any X-rays that could have signaled the presence of a growing black hole. Credit: Image courtesy of CXC Press Office.
A recently discovered galaxy is undergoing an extraordinary boom of stellar construction, revealed by a group of astronomers led by University of Florida graduate student Jingzhe Ma using NASA's Chandra X-Ray Observatory.

The galaxy known as SPT 0346‐52 is 12.7 billion light years from Earth, seen at a critical stage in the evolution of galaxies about a billion years after the Big Bang.

Chandra Overview NASA

Astronomers first discovered SPT 0346‐52 with the National Science Foundation's South Pole Telescope, then observed it with space and ground-based telescopes. Data from the NSF/ESO Atacama Large Millimeter/submillimeter Array in Chile revealed extremely bright infrared emission, suggesting that the galaxy is undergoing a tremendous burst of star birth.



South Pole Telescope - Wikipedia


SPT 0346-52 is part of a population of strong gravitationally-lensed galaxies photo: discovered Sci-News.com

However, an alternative explanation remained: Was much of the infrared emission instead caused by a rapidly growing supermassive black hole at the galaxy's center? Gas falling towards the black hole would become much hotter and brighter, causing surrounding dust and gas to glow in infrared light. To explore this possibility, researchers used NASA's Chandra X‐ray Observatory and CSIRO's Australia Telescope Compact Array, a radio telescope.

No X‐rays or radio waves were detected, so astronomers were able to rule out a black hole being responsible for most of the bright infrared light.

About Australia Telescope Compact Array - CSIRO

"We now know that this galaxy doesn't have a gorging black hole, but instead is shining brightly with the light from newborn stars," Ma said. "This gives us information about how galaxies and the stars within them evolve during some of the earliest times in the universe."

Stars are forming at a rate of about 4,500 times the mass of the Sun every year in SPT0346-52, one of the highest rates seen in a galaxy. This is in contrast to a galaxy like the Milky Way that only forms about one solar mass of new stars per year.

"Astronomers call galaxies with lots of star formation 'starburst' galaxies," said UF astronomy professor Anthony Gonzalez, who co-authored the study. "That term doesn't seem to do this galaxy justice, so we are calling it a 'hyper-starburst' galaxy."

The high rate of star formation implies that a large reservoir of cool gas in the galaxy is being converted into stars with unusually high efficiency.

Astronomers hope that by studying more galaxies like SPT0346‐52 they will learn more about the formation and growth of massive galaxies and the supermassive black holes at their centers.

"For decades, astronomers have known that supermassive black holes and the stars in their host galaxies grow together," said co-author Joaquin Vieira of the University of Illinois at Urbana‐Champaign. "Exactly why they do this is still a mystery. SPT0346-52 is interesting because we have observed an incredible burst of stars forming, and yet found no evidence for a growing supermassive black hole. We would really like to study this galaxy in greater detail and understand what triggered the star formation and how that affects the growth of the black hole."

Joaquin Vieira Wins Sloan Fellowship Astronomy at Illinois

SPT0346‐52 is part of a population of strong gravitationally-lensed galaxies discovered with the SPT. It appears about six times brighter than it would without gravitational lensing, which enables astronomers to see more details than would otherwise be possible.




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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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