Genetic mutation discovered that increases the chance of having a daughter – Scientias

Genetic mutation discovered that increases the chance of having a daughter – Scientias

The study results indicate that genetic variations may affect the sex ratio of children, which could explain skewed ratios in some families.

Approximately the same number of boys and girls are born every year. But in some families, couples have four or more daughters without sons, while others have only boys and no daughters. This raises a pressing question among scientists. Because could this unequal sex ratio possibly have to do with the genes of the parents?

Genetics
Scientists have speculated for decades that genetics may play a role in determining the ratio of boys to girls born. They suspect that there may be genetic variations that make some parents more likely to have sons or daughters. “However, so far no concrete evidence has been found that a specific genetic variation actually changes the existing ratio of approximately 50 percent boys and 50 percent girls in a population,” said researcher Jianzhi Zhang. In short, there has been a lot of research into the idea that genetics can influence sex ratio, but this has not yet been confirmed.

No mutations?
Zhang notes that this has led some scientists to think that the human sex ratio may not be subject to mutations at all. “Yet this seems unlikely,” he says. “That’s because virtually all human characteristics are influenced by mutations and genetic variations. We therefore believe that it is difficult to detect genetic variation in the sex ratio because this ratio is not measured accurately.” For example, if someone has only one child, it is impossible to estimate a balanced sex ratio.

UK Biobank
To investigate the genetic influence on the sex ratio, the researchers realized that they needed a much larger group of participants than in previous studies. They therefore chose the UK Biobank, a biomedical database with genetic and phenotypic data from around 500,000 British participants.

Greater chance of having a daughter
The research leads to a striking discovery. When studying the data, the researchers discovered a specific nucleotide change (a change in the order of nucleotides in the DNA), called rs144724107. And this nucleotide change appears to be associated with a 10 percent increase in the chance of having a daughter instead of a son.

Rare
According to the team, this nucleotide change is rare among the participants of the UK Biobank: approximately 0.5 percent of them have this variant. The nucleotide change is close to a gene called ADAMTS14, which belongs to the ADAMTS gene family, which is known for its role in spermatogenesis and fertilization. The researchers also found two genes, RLF and KIF20B, that may also influence the sex ratio.

Principe van Fisher
The results of the study are in line with a theory in evolutionary biology, namely Fisher’s principle. This principle holds that natural selection favors the genetic variant that leads to more births of the rare sex. This means that if fewer males than females are born in a population, natural selection supports genetic variants that increase the number of males born, and vice versa. This ultimately leads to an approximately balanced sex ratio in the population.

People
“For Fisher’s principle to work, mutations that affect the sex ratio must exist,” Zhang explains. “The lack of identified genetic variation in the human sex ratio has led some scientists to question the relevance of Fisher’s principle to humans. However, our study shows that the data on humans is indeed consistent with Fisher’s principle. The reason why no genetic variants for sex ratio have been found is the inaccuracy in the measurements of the sex ratio of offspring.”

Animal husbandry
Although the researchers focused on the human sex ratio in this study, they note that their discoveries could also have useful applications in animal husbandry. “In agriculture, one sex – usually females – often has much more economic value than the other,” says Zhang. “For example, chickens are important for egg production and female cows for milk production. Males, which are generally less valuable, are often killed shortly after birth. Discovering genetic variants in farm animals that have the same impact as those in humans, such as rs144724107, would likely provide significant benefits and contribute to animal welfare.”

Summarizing pointing the findings points out that certain genetic variations can influence the sex ratio of children, which may explain the unequal gender distribution that sometimes occurs in families. Although the sex ratio in the population as a whole is usually constant, rare genetic mutations can affect this ratio at the individual level. Further studies are needed to confirm these findings and to explore the possible influence of other genetic variants. Something that could be quite a challenge. “This will not be an easy task,” says Zhang, “due to the large sample size required and the rarity of the genetic variant discovered.”

The Genetic Gamble: Are Parents Playing for Sons or Daughters?

Ah, the age-old dilemma of family planning—the eternal question of “Will it be a boy, or will it be a girl?” For ages, couples have rolled the dice, hoping to strike that perfect balance of offspring. But hold onto your hats, folks, because a new study has popped up in the world of genetic research, and it’s not just spinning a yarn about how many girls or boys you can expect.

Mother Nature’s Special Recipe

According to the latest findings, it seems that genetic variations could be the sneaky culprits behind why some families wind up with an army of daughters while others recruit a battalion of sons. According to researcher Jianzhi Zhang, while it’s no shock to learn that every year, approximately equal numbers of boys and girls pop out of the womb, some families seem to have a penchant for one side of the gender spectrum. Ever heard of a family with four girls and no boys? Yes, the odds are about as favorable as winning the lottery twice in one week!

Genetic Roulette: What Are the Odds?

Now, before you start blaming your genes for your all-girl or all-boy family, let’s get one thing straight. Scientists have kicked around the idea that genetics play a pivotal role in determining the sex ratio. However, as Zhang notes, “‘so far, no concrete evidence has been found’”—kind of like looking for the Holy Grail in a thrift shop. This research has yet to provide the smoking gun proving that genetic variations actually affect the sex ratio. It’s an ongoing saga of genetic mysteries, suitable for its own Netflix drama!

No Mutations? Say What?

On top of that, there are some scientists who are throwing cold water on the whole genetic influence theory, suggesting that the human sex ratio might not even be susceptible to mutations! Zhang raises an eyebrow at this notion, arguing that all human traits are shaped by mutations. So if we can’t detect any variations influencing the sex ratio, perhaps it’s merely a question of measuring it accurately. If you only have one child, good luck finding a balanced sex ratio in there!

Welcome to the UK Biobank: The More, The Merrier!

To dig deeper, the researchers decided they needed a larger pool of participants—like going from a kiddie pool to the ocean! Enter the UK Biobank—providing a wealth of genetic data from about 500,000 British souls. It’s like a grand buffet for scientists—except instead of G&Ts, they’re serving up genes and potential revelations.

Daughters on the Rise: Mark This Nucleotide

What’s the takeaway from all this scientific sleuthing? Well, strap in! The study uncovered a particular nucleotide change, humorously named rs144724107, that’s linked to a 10 percent increase in the likelihood of having daughters. This might sound small, but let’s face it, in the world of family preferences, it could cause quite a stir! Only about 0.5 percent of the UK Biobank participants have this variant, which is part of a family of genes that play a crucial role in the play-by-play of human reproduction — spermatogenesis and fertilization, to be precise.

Fisher’s Principle: Natural Selection’s Favorite Rule

These findings bathe in the warm glow of Fisher’s Principle, an age-old evolutionary concept. The essence? Natural selection tends to favor genetic variants that lead to an increase in births of the rare sex. So if you’ve stumbled upon a family with a skewed ratio, it’s more than just a coincidence—it could be genetic fate at work. But don’t get too excited just yet; the actual mechanics are still wrapped in some genetic riddles that need unraveling.

Animal Husbandry: Timing for a Twist

If all this sounds very human-centric, fear not! The implications of this research extend far beyond the family tree. In agriculture, for instance, the insights gleaned could transform how we groom our livestock. Zhang points out that in farming, one sex often has much more economic value than the other—just ask a farmer with chickens that only lay eggs or cows that produce milk! If we could identify genetic variants in farm animals akin to what’s found in humans, it could mean an economic boon and a step towards better animal welfare.

Conclusion: More Questions Than Answers?

In summary, this new study shows that while the overall sex ratio remains balanced, rare genetic mutations can shake things up on an individual level. This could possibly explain why some families are a sea of pink while others are blue. But before you assume your next kid will tip the scale one way or another, remember that researchers are just getting started. Zhang puts it bluntly: “This will not be an easy task,” hinting at the Herculean effort needed to verify these elusive genetic clues.

So, to all the parenting aficionados—keep those family trees growing. Whether you’re after a little boy or a girl, genetics certainly adds a spicy twist to this age-old game!

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