Alien-Looking Skeleton Poses Medical Mystery
A teensy skeleton with a squashed alienlike head may have earthly origins, but the remains, found in the Atacama Desert a decade ago, do make for quite a medical mystery.
Apparently when the mummified specimen was discovered, some had suggested the possibility it was an alien that had somehow landed on Earth, though the researchers involved never suggested this otherworldly origin.
Now, DNA and other tests suggest the individual was a human and was 6 to 8 years of age when he or she died. Even so, the remains were just 6 inches (15 centimeters) long. [See Images of the Alien-Looking Human Remains]
"While the jury is out regarding the mutations that cause the deformity, and there is a real discrepancy in how we account for the apparent age of the bones … every nucleotide I've been able to look at is human," researcher Garry Nolan, professor of microbiology and immunology at Stanford School of Medicine, told LiveScience. "I've only scratched the surface in the analysis. But there is nothing that jumps out so far as to scream 'nonhuman.'"
Analyzing the tiny human
The remains also showed skull deformities and mild underdevelopment of the mid-face and jaw, the researchers found. The skull also showed signs of turricephaly, or high-head syndrome, a birth defect in which the top of the skull is cone-shaped.
The genome sequencing suggested the creature was human, though 9 percent of the genes didn't match up with the reference human genome; the mismatches may be due to various factors, including degradation, artifacts from lab preparation of the specimen or insufficient data.
The team also looked at mitochondrial DNA, or the DNA inside the cells' energy-making structures that gets passed down from mothers to offspring. The so-called allele frequency of the mitochondrial DNA suggested the individual came from the Atacama, particularly from the B2 haplotype group. A haplotype is a long segment of ancestral DNA that stays the same over several generations and can pinpoint a group who share a common ancestor way back in time. In this case the B2 haplotype is found on the west coast of South America.
The data from the mitochondrial DNA alleles point toward "the mother being an indigenous woman from the Chilean area of South America," Nolan wrote in an email.
The jury is still out on the mutations that caused the deformities, and the researchers aren't certain how old the bones are, though they estimate the individual died at least a few decades ago. In addition, they didn't find any of the mutations commonly associated with primordial dwarfism or other forms of dwarfism. If there is a genetic basis for the deformities, it is "not apparent at this level of resolution and at this stage of the analysis," Nolan wrote in a summary of his work.
In addition, even if they found those mutations, they may not explain the anomalies seen in the skeleton. "There is no known form of dwarfism that accounts for all of the anomalies seen in this specimen," Dr. Ralph Lachman, professor emeritus, UCLA School of Medicine, and clinical professor at Stanford University, wrote in a report to Nolan.
This wouldn't be the first time alien-looking remains have been brought to the attention of science. The alienlike skulls of children were discovered in a 1,000-year-old cemetery in Mexico. Researchers who examined the skulls said they had been deliberately warped and illustrated a practice of skull deformation that was common at the time in Central America.
"It's an interesting medical mystery of an unfortunate human with a series of birth defects that currently the genetics of which are not obvious," Nolan wrote of the Atacama skeleton.
The research was featured in film "Sirius," a crowd-funded documentary that premiered on April 22 in Hollywood, Calif.
Original article on LiveScience.com.
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Jeanna served as editor-in-chief of Live Science. Previously, she was an assistant editor at Scholastic's Science World magazine. Jeanna has an English degree from Salisbury University, a master's degree in biogeochemistry and environmental sciences from the University of Maryland, and a graduate science journalism degree from New York University. She has worked as a biologist in Florida, where she monitored wetlands and did field surveys for endangered species. She also received an ocean sciences journalism fellowship from Woods Hole Oceanographic Institution.
By Kiley Price