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Think of mermaids. They might look cute on beaches when you imagine a wonderful looking half woman and half fish. But in reality people don't like playing with genes in labs. You might even frown upon researchers who are trying to create chimeras using different natured genomes for various research purposes.

                                              

                                      Extreme Science: Dr. Krishna Kumari Challa's  Art work based on the theme

But if I tell you human chimeras already exist in nature, what will you say?

When an individual carries two or more genetically distinct cell lines in different parts of his/her body, the phenomenon is called  genetic chimerism. 

 Genetic chimeras may be quite common, disguised in perfectly normal bodies harbouring genetically distinct cell lineages but the individuals that have them may not even know that they are Chimeric! They only came to light when the phenotypes associated with the two distinct genomes were so discordant that the resulting individual was clearly exceptional, with patches of distinct skin coloration throughout the body, for example, or hermaphroditic genitals.

In 1976, researchers from the Lister Institute of Preventive Medicine in London published the puzzling case of a woman who had two different blood types: 93 percent of her red cells were type O, while the remaining 7 percent were type A1, the most common type A subgroup (1). A few years later, Winifred Watkins of the MRC Clinical Research Centre and colleagues came across another blood donor with two distinct red blood cell types, and further investigation led to an even more astonishing finding: a phenotypically normal man, with presumably XY cells in his testes and most of his body, was found to carry XX cells in his skin and other tissues (2).

A man who had the life-saving procedure (bone marrow transplant) as part of his treatment for acute myeloid leukaemia,  a type of blood cancer, has found out that that DNA of his blood changed to that of his donor (5). But following a swab test four years later, he was told that the DNA in his lips, tongue and cheeks had now altered too. What 's worse 's that all of the DNA in his semen now belonged to his donor.

How can chimerism occur? Our present knowledge tells us this can happen in four ways...

1. When a foetus absorbs its twin. This can occur with fraternal twins, if one embryo dies very early in pregnancy, and some of its cells are "absorbed" by the other twin. The remaining foetus will have two sets of cells, its own original set, plus the one from its twin.

Can  a baby have two biological fathers? Chimerism is the only way this could happen biologically. 

For one baby to have two fathers what would have to happen first is bipaternal twins, which is rare. It is when two eggs get fertilized by two different men's sperm and become fraternal twins. For a chimera to happen, then one of those twins would die early in the womb and the other twin would absorb it and then fuse together into one person (a chimera). 

2. When bone marrow transplantion takes place. Leukemia patients are treated with bone marrow transplantation. The person will have his own bone marrow destroyed and replaced with bone marrow from another person. Bone marrow contains stem cells that develop into red blood cells. This means that a person with a bone marrow transplant will have blood cells, for the rest of his life, that are genetically identical to those of the donor, and are not genetically the same as the other cells in his own body.

In some cases, all of the blood cells in a person who received a bone marrow transplant will match the DNA of his donor. But in other cases, the recipient may have a mix of both his own blood cells and donor ones, according to a review paper in the journal Bone Marrow Transplantation (3). 

3.  If you've had a blood transfusion, the cells from the original blood donor will briefly be present in your body. However, among traumatically injured patients who received blood transfusions, the donor’s cells have been detected even decades after the transfusion.

4. Pregnancy can make a woman a chimera. This happens in almost all pregnant women, at least temporarily. When a woman gets pregnant, a small number of cells from the foetus migrate into her blood and travel to different organs (microchimerism). Now don't get frightened.  This is a natural phenomenon, so you need not worry.

When some researchers tested tissue samples from the kidneys, livers, spleens, lungs, hearts, and brains of 26 women who tragically died while pregnant or within one month of giving birth, they found that the women had foetal cells in all of these tissues. The researchers knew that the cells were from the foetus, and not from the mother, because the cells contained a Y chromosome (found only in males) and the women had all been carrying sons! In some cases, foetal cells may stay in a woman's body for years or even a lifetime (4). 

The studies suggested that there is a potential for both positive and negative consequences of microchimerism in the brain  for a number of different diseases that affect the brain, including degenerative diseases and cancer. 

Chimerism might cause problems in forensic studies where the criminals are nailed using DNA analyses. It could also lead to confusion around a victim's identity.

Previous work on microchimerism suggested foetal cells might protect against breast cancer and aid tissue repair in the mothers, but also could boost the risk of colon cancer and help incite autoimmune diseases, in which a person's body is mistakenly attacked by its own immune system.

But the research results are not very clear at this stage and further investigations are needed to come to a conclusion in this regard .

Can a person who does not exist have children? 

Yes! I t is possible!

Chimerism: A man who never existed had a child (6,7)

Clearly, you should be thinking: “How can someone who never exist have a child?”

Well, here is the real story…

A Washington family had just had a child when the father decided to take a paternal test. When he got the results back, he was shocked. He wasn’t the father to his child.

The couple decided that he’ll take a 23andMe test, and the results shocked them even more.

The father was actually the uncle.

This couldn’t make sense, though, since the child was made through Vitro fertilization, and only the father was giving the sperm sample.

What the father learned from this changed his entire perspective on who he was as a person.

The father was a chimera who absorbed his fraternal twin, who also happened to be a male.

Inside, the father’s sperm was 90% himself and 10% his twin brother.

His son only inherited the absorbed brother’s sperm, though.

From this, a man who was never born managed to have a child of his own.

Citations:

1. G.W. Bird et al., “Further observations on the Birmingham chimaera,” J Med Genet, 13:70-71, 1976.

2. W.M. Watkins et al., “A human dispermic chimaera first suspected from analyses of the blood group gene-specified glycosyltransferases,” J Immunogenet, 8:113-28, 1981.

3. http://www.nature.com/bmt/journal/v34/n1/full/1704525a.html

4. http://www.livescience.com/23490-fetal-dna-mom-brain.html

5. https://www.thesun.co.uk/news/10515134/man-dna-changed-bone-marrow-...

6. Human Chimera: How a Man's Unborn Twin Fathered His Child | Time

 7.  Human-Nonhuman Chimeras: Do We Really Want to Go There? | The ...

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Yellow crazy ant males have two sets of DNA

A small international team of molecular and evolutionary scientists has discovered that male yellow crazy ants (also known as long-legged ants) have two sets of DNA throughout their bodies. In their paper published in the journal Science, the group describes the unique find and discusses possible reasons for it.

Other scientists suggest in the same journal that the unique genetic feature of the ants may explain why they are such a successful invasive species.

Yellow crazy ants ; Image source: Google images

Prior research has shown that yellow crazy ants, which are native to Asia and West Africa, have the ability to adapt well to new environments, making them a successful invasive species.

Now it turns out that they may have an advantage that has not been seen before: Males have dual sets of DNA.

One of the most basic concepts of biological science is that multicellular organisms develop from a single-cell zygote into a creature with a unique genome. The only exceptions to this rule have been chimeras, which are generally considered accidents of nature. In this new effort, the research team found another exception—male yellow crazy ants with dual sets of DNA.

Prior research had shown anomalies in crazy yellow ant genetics, but until now, it was not clear what was behind apparent discrepancies between queens, males and worker ants. To clear up the mystery, the researchers conducted population genetic and phylogeographic studies of specimens collected from sites across Asia.

They discovered that male yellow crazy ants have two separate genetic lineages—no fusion between maternal and paternal nuclei occurs; thus, both remain active in all males of the species. The research team points out that their findings represent the first-ever discovery of obligate chimerism. They suggest that such chimerism may result from a conflict between competing genetic lineages. And Scientists suggest that this unique genetic feature may help to prevent inbreeding, which could in turn help the ants survive in unfamiliar territory, explaining their success as an invasive species.

H. Darras et al, Obligate chimerism in male yellow crazy ants, Science (2023). DOI: 10.1126/science.adf0419

Daniel J. C. Kronauer, The unusual genetics of invasive ants, Science (2023). DOI: 10.1126/science.adh1664

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Replies to This Discussion

879

Are you male or female?

Females have two X chromosomes, but in each cell one of them is inactivated, so only one of them is expressed. Thus, females are genetic mosaic of their X chromosomes, with some areas expressing one X chromosome and other areas the other one. If alleles for genes involved in very visible traits in the X chromosome differ between both X chromosomes, the result will be similar to chimerism.

Another possibility is some other type of mosaicism: during the eraly stages of development, when you were a handful of cells, one of them could have mutated, and then all its descendants would carry that mutation. If that mutation is something very visible, it can show visible mosaicism. 
Most people have some level of mosaicism, but restricted to extremely small areas. That’s what moles technically are, for example.

What you describe of your ears might not be due to chimerism or mosaicism at all, just natural variation. Nobody’s ears are symmetrical.

What you describe for your hair and eyes, though, could be mosaicism.

Why some people have different natured genomes in their cells

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Chimerism is the only way this could happen biologically. Chimerism is extremely rare. Only about 100 cases have ever been recorded.

For one baby to have two fathers what would have to happen first is bipaternal twins, which is rare. It is when two eggs get fertilized by two different men's sperm and become fraternal twins. For a chimera to happen, then one of those twins would die early in the womb and the other twin would absorb it and then fuse together into one person (a chimera). Below is an example of fraternal twins with different fathers and a lady who is a chimera.

A Chinese woman just had twins with 2 different fathers — here’s ho...

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Lydia Fairchild - Wikipedia

Everything on the left side of her body is slightly larger than the right ride. She has many allergies to food, medication, insect bites and jewelry. The question is, why?

Singer, Taylor Muhl, asked a doctor to investigate the unqiue birthmark on the left side of her torso. Here's the thing, the coloured patch wasn't a birthmark at all!

In fact, Taylor had absorbed her twin sister while still in her mother's womb. As a result, she carried her twin's set of genetic code!


This condition is known as tetragametic chimerism. This is when a person carries two distinct sets of DNA, each set creating a separate person. It occurs when two eggs are fertilized by a separate sperm. The fertilized eggs then fuse to create a single person, with two separate DNA codes.

Babies born with this condition often have different eye pigmentation, or patchy skin. They may even be born with a combination of both male and female sex organs.

Footnotes

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