A new mouse study suggests that epigenetic inheritance may defy Mendel’s laws more often than previously thought. Researchers found new examples of genomic imprinting and DNA methylation patterns passed down across generations, including changes not present in either parent.
Genetic information in the DNA and modifications, such as DNA methylation, define the epigenetic landscape and phenotype and show both Mendelian and non-Mendelian heredity.
(Source: Art design by Michael Koldobskiy and Andrew Feinberg, illustration by Kate Zvorykina)
Scientists have long known that the DNA code in genes is not the only way to pass genetic traits from parents to offspring. “Epigenetic” marks — chemical modifications to DNA that don’t change the DNA code itself — can also be passed down. Now, a new study using mice reveals that some of those marks — about 7% of them — can be inherited in ways that break the century-long understanding of the rules of inheritance explored and recorded by Gregor Mendel’s work with pea plants. The study also reveals new, unexpected examples of inheritance patterns that defy Mendel’s law — such as a naturally occurring paramutation, seen previously in plants and flies, and not in mammals.
“Non-Mendelian patterns of inheriting epigenetics could be a faster way to acquire diverse or new traits than alterations in the genomic sequence itself, especially in response to environmental pressures,” says Andrew Feinberg, M.D., Bloomberg Distinguished Professor in the Johns Hopkins University School of Medicine, Whiting School of Engineering and Bloomberg School of Public Health, and co-leader of the research with colleagues at Texas A&M University.
Mouse Study Reveals New Patterns
The well-studied rules of genetic inheritance — known as Mendel’s Laws — cover how genetic material known as alleles sort themselves, are dominant or recessive, and in what ways they get passed down to new generations. Alleles are variations on genes that lead to a specific trait or disease state. In mammals, one allele is inherited from each parent, and either of those alleles can be dominant or recessive.
The rules state, for example, that alleles in offspring are inherited from each parent, and the traits of dominant alleles prevail over recessive ones, which are silenced. Several previous studies have already shown that some patterns of epigenetic inheritance, such as genomic imprinting, can break the guiding principles established by the Austrian-born friar. The new study also found examples of genomic imprinting, but also other types of non-Mendelian patterns of epigenetic inheritance that surprised the scientists.
In examples of genomic imprinting, an allele in either parent can be labeled as coming from sperm or an egg and silenced by methylation. Such imprinted alleles are passed down to offspring and are silenced not because they are recessive but based on which parent contributes the imprinted allele. The new research found imprinting examples in five additional genes.
In addition to the new examples of genetic imprinting, results of the current study suggest that epigenetic patterns of inheritance that defy Mendel’s rules may be more frequent than described in other studies. In addition, the research team found epigenetic patterns passed down to offspring that were not present in either parent.
For the study, researchers tracked how mice inherit a type of epigenetic change to DNA called methylation, in which chemical groups made up of carbon and hydrogen atoms are attached to the so-called promoter region of a gene, which turns it on or off.
The scientists sampled tissue from three generations of male and female mice at 4–6 months old: 26 in the first group, 34 offspring in the second generation and 19 in the third generation.
This work may convince scientists to integrate both genomics and epigenomics more often for a complete understanding of how traits that produce disease and healthy states are inherited.
Professor Kasper Hansen, Ph.D., Johns Hopkins Bloomberg School of Public Health
They scoured extensive parts of the mouse genome in each tissue sample, following how the genomic sequence and 12 known inherited patterns of DNA methylation were passed down in the three generations of mice.
Feinberg worked with co-corresponding authors David Threadgill, Ph.D., Regents professor at Texas A&M, and Kasper Hansen, Ph.D., professor of biostatistics at the Johns Hopkins Bloomberg School of Public Health. They worked with Johns Hopkins graduate student Adam Davidovich to develop new experimental and computational strategies to map methylation and genomic data together.
In all, the researchers found 522 instances — about 7% of epigenetic inheritance patterns — in which methylation was inherited on non-sex chromosomes in a variety of ways that broke Mendel’s laws.
Some 54 of those instances represented rare or “emergent” types of epigenetic inheritance not present in either parent. For example, a cross between two mice with no methylation on the same allele, which should have resulted in a mouse that inherited no methylation on the allele, could instead result in a mouse with methylation on both alleles. “The methylation seemingly appeared out of nowhere,” says Feinberg.
Date: 08.12.2025
Naturally, we always handle your personal data responsibly. Any personal data we receive from you is processed in accordance with applicable data protection legislation. For detailed information please see our privacy policy.
Consent to the use of data for promotional purposes
I hereby consent to Vogel Communications Group GmbH & Co. KG, Max-Planck-Str. 7-9, 97082 Würzburg including any affiliated companies according to §§ 15 et seq. AktG (hereafter: Vogel Communications Group) using my e-mail address to send editorial newsletters. A list of all affiliated companies can be found here
Newsletter content may include all products and services of any companies mentioned above, including for example specialist journals and books, events and fairs as well as event-related products and services, print and digital media offers and services such as additional (editorial) newsletters, raffles, lead campaigns, market research both online and offline, specialist webportals and e-learning offers. In case my personal telephone number has also been collected, it may be used for offers of aforementioned products, for services of the companies mentioned above, and market research purposes.
Additionally, my consent also includes the processing of my email address and telephone number for data matching for marketing purposes with select advertising partners such as LinkedIn, Google, and Meta. For this, Vogel Communications Group may transmit said data in hashed form to the advertising partners who then use said data to determine whether I am also a member of the mentioned advertising partner portals. Vogel Communications Group uses this feature for the purposes of re-targeting (up-selling, cross-selling, and customer loyalty), generating so-called look-alike audiences for acquisition of new customers, and as basis for exclusion for on-going advertising campaigns. Further information can be found in section “data matching for marketing purposes”.
In case I access protected data on Internet portals of Vogel Communications Group including any affiliated companies according to §§ 15 et seq. AktG, I need to provide further data in order to register for the access to such content. In return for this free access to editorial content, my data may be used in accordance with this consent for the purposes stated here. This does not apply to data matching for marketing purposes.
Right of revocation
I understand that I can revoke my consent at will. My revocation does not change the lawfulness of data processing that was conducted based on my consent leading up to my revocation. One option to declare my revocation is to use the contact form found at https://contact.vogel.de. In case I no longer wish to receive certain newsletters, I have subscribed to, I can also click on the unsubscribe link included at the end of a newsletter. Further information regarding my right of revocation and the implementation of it as well as the consequences of my revocation can be found in the data protection declaration, section editorial newsletter.
The scientists also found another rare type of inheritance called paramutation in a gene called Capn11, which encodes a calcium-dependent gene that regulates normal sperm development. Alterations in the human version of the gene cause infertility and problems with sperm.
Paramutation occurs when methylation in one allele leads to methylation in another allele. The paramutation was located in an area of the gene associated with a repetitive element of a type known to be influenced by environmental exposure. “It’s almost like the methylation is transferred to another allele,” says Feinberg. He notes that epigenetic influences on the genome have been tied to environmental pressures such as environmental stress, trauma and diet.
For their studies of the mouse genome, the research team used genomic sequencing involving “long-reads” of DNA segments that are between 10,000 pairs of chemical DNA letters up to more than a million chemical base pairs. Long-read sequencing is more labor-intensive, but it is better than short-read sequencing at identifying variations among alleles, as well as methylation spots that can be far away from the bulk of a gene.
Feinberg says they plan to study epigenetic inheritance patterns using human genomic data, as well. That work may provide more insights for tracking non-Mendelian patterns of epigenetic inheritance that can inform clinical geneticists looking for patterns of disease in families. It may also help scientists study how environmental factors, such as diet, influence epigenetic inheritance patterns.
:quality(80)/p7i.vogel.de/wcms/71/16/71167a6d12f3f694a9cf744a6f12e77b/0131584322v2.jpeg "With its two sites in South Carolina (USA) and Shanghai (China), Ambiopharm adds differentiated peptide manufacturing capabilities to Cordenpharma’s existing Peptides Platform and expertise. (Source: Ambiopharm)")
:quality(80)/p7i.vogel.de/wcms/b6/b9/b6b97ca31aed69478954ad986331ba08/0131479004v1.jpeg "Thanks to plasma technology, organosilicon compounds have been successfully used to produce water-repellent textiles. (Source: Empa)")
:quality(80)/p7i.vogel.de/wcms/f5/ea/f5eae046dd5abe4a43b65e4aee1d5784/0131429900v2.jpeg "Qualified maintenance in biopharma requires utmost precision and documented processes. (Source: Bilfinger)")
:quality(80)/p7i.vogel.de/wcms/d6/25/d625408f8628b90bf08a73d0c6d57fe7/0131163821v2.jpeg "Borrowing from chatbots, researchers create first language model for population genetics. (Source: free licensed)")
:quality(80)/p7i.vogel.de/wcms/bc/f3/bcf32d0a9e410836dab7c95a777ad9b4/0131367205v2.jpeg "Wearable polygraph device in the palm of a hand for scale. (Source: John A. Rogers/Northwestern University)")
:quality(80)/p7i.vogel.de/wcms/88/c9/88c92055b10f9811b3b9328a71dcfb33/0131255382v2.jpeg "Fig.1: A certified standard pH 7 buffer (Source: Mettler Toledo)")
:quality(80)/p7i.vogel.de/wcms/52/2e/522e60883334ab2d806e6038a11e9204/0131030069v3.jpeg "“With Cellcelector, your team moves from single cell → validated clone → production ready line through one tightly integrated, automation driven workflow.” – Dr. Darius Wilson, Head of Product Management, Cell Selection & Retrieval, Sartorius Lab Product & Services (Source: Sartorius)")
:quality(80)/p7i.vogel.de/wcms/06/0e/060e08234d208d1faca16ad0cf582ff3/0131026470v2.jpeg "For enzymatic shearing from fixed cells or tissue – both these detergent-based buffers are ideal for effective fragmentation of nuclear material. (Source: © Kateryna_Kon - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/ef/05/ef0591ab0689619cf58dfee8f465f795/0131567242v2.jpeg "Vials of seawater, Great Salt Lake water, nickel sulfate, copper chloride wastewater, and desalinated water, along with recovered salts show how a new approach developed by URochester researchers turns natural and industrial waters into fresh water and reusable minerals. (Source: J. Adam Fenster / University of Rochester)")
:quality(80)/p7i.vogel.de/wcms/00/76/007699ebab7da92ec93002497189948a/0131515176v2.jpeg "Wars not only destroy lives but also have long-term impacts on the environment. (Source: © Rayhan - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/66/3d/663ded6ebf0668154286743e97d388e0/0131478842v1.jpeg "The study’s overall findings suggest that to protect wildlife, conservationists should consider not just habitat loss, but also where and when people are physically present. (Source: free licensed)")
:quality(80)/p7i.vogel.de/wcms/83/77/83773682aa1440dc70c1bc5482369e72/0131301726v2.jpeg "The study reveals for the first time how the decline of insect pollinators undermines essential ecosystem services that support human nutrition and livelihoods. (Source: Thomas Timberlake, University of Bristol)")
:quality(80)/p7i.vogel.de/wcms/48/97/4897129d96e4ab9287933406b153ab51/0131163956v2.jpeg "Eating one egg per day for at least five days a week reduces risk of Alzheimer’s by up to 27%, researchers found. (Source: free licensed)")
:quality(80)/p7i.vogel.de/wcms/f6/a8/f6a8a2ac333baa08d168cc68ac2192c0/0131001826v2.jpeg "University of Oregon researchers find a way to measure the flavor profile of coffee. (Source: free licensed)")
:quality(80)/p7i.vogel.de/wcms/34/ff/34ff3de563d63ac821f789f8ca397070/0130971132v2.jpeg "Mixed nuts on a wooden platter. (Source: Piviso from Pixabay)")
:quality(80)/p7i.vogel.de/wcms/e7/08/e708baaa36f8929e985dfe5baea8bc68/0130734917v2.jpeg "A simple cafeteria menu change can make a measurable difference: replacing one meat-based lunch with a vegetarian option increased vegetarian meal choices by 41 percent in six English workplace canteens, while also reducing calories and greenhouse-gas emissions without hurting sales. (Source: free licensed)")
:quality(80)/p7i.vogel.de/wcms/15/e0/15e08e2ebb02e3d0bd13bba1c0ff44e4/0131588088v2.jpeg "In the new study, the scientists examined young and old male and female mice, with or without loss of brain estrogen, which allowed them to pinpoint the effects specifically relevant to older females. (Source: 愚木混株 Yumu on Unsplash)")
:quality(80)/p7i.vogel.de/wcms/f1/d0/f1d0dcef2c9b6ea00f163b55375593ec/0131588075v2.jpeg "The Cardiocare Consortium is focusing on a previously neglected and vulnerable group of patients – women over 65 with breast cancer at risk of cardiotoxicity from cancer treatment. (Source: Benjamin Brunner on Unsplash)")
:quality(80)/p7i.vogel.de/wcms/cd/74/cd74b45a007e9135b804c6cef95c818f/0131479056v2.jpeg "During the tests, the researchers noted that the animals that became obese from a high-fat diet began overexpressing a type of microRNA known as let-7 in their adipose tissue. (Source: free licensed)")
:quality(80)/p7i.vogel.de/wcms/13/1e/131e0ece5c6d043f909ce7da5c536c97/0131478860v1.jpeg "Shared laughter can help children build emotional bonds, regulate stress and become more open to learning, according to child development expert Dr Jacqueline Harding. (Source: free licensed)")
:quality(80)/images.vogel.de/vogelonline/bdb/1710600/1710675/original.jpg "Discover how to set yourself up for success when performing balance-based density determination of solids such as jewelry and precious metals. (Mettler Toledo)")
:quality(80)/images.vogel.de/vogelonline/bdb/1682500/1682579/original.jpg "The new XPR Analytical balance redesigned to meet the needs of laboratory technicians of working fast and lean. (Mettler Toledo)")
:quality(80)/images.vogel.de/vogelonline/bdb/1677000/1677080/original.jpg "Enhance your weighing accuracy, comfort and productivity with the redesigned XPR Analytical balance. (Mettler Toledo)")
:fill(fff,0)/p7i.vogel.de/companies/69/b7/69b7f63f311d9/logo-bimos-tif--2-.jpeg "logo-bimos-tif--2- (https://www.bimos.com/de-de/)"){kind=logo}
:quality(80)/p7i.vogel.de/wcms/d6/25/d625408f8628b90bf08a73d0c6d57fe7/0131163821v2.jpeg "Borrowing from chatbots, researchers create first language model for population genetics. (Source: free licensed)")
:quality(80)/p7i.vogel.de/wcms/f1/e2/f1e2ba78465466e8adaab76b65a0cce3/0126190802v1.jpeg "Stem cells from mice cryopreserved on the International Space Station for six months have produced healthy offspring.
(Source: KyotoU/ Shinohara lab)")
:quality(80)/p7i.vogel.de/wcms/cd/74/cd74b45a007e9135b804c6cef95c818f/0131479056v2.jpeg "During the tests, the researchers noted that the animals that became obese from a high-fat diet began overexpressing a type of microRNA known as let-7 in their adipose tissue. (Source: free licensed)")