PRESS-NEWS.org - Press Release Distribution
PRESS RELEASES DISTRIBUTION

The architect of genome folding

Epigenetic regulator HPI1a drives de novo genome reorganization in early Drosophila embryos

The architect of genome folding
2021-04-15
(Press-News.org) The DNA molecule is not naked in the nucleus. Instead, it is folded in a very organized way by the help of different proteins to establish a unique spatial organization of the genetic information. This 3D spatial genome organization is fundamental for the regulation of our genes and has to be established de novo by each individual during early embryogenesis. Researchers at the MPI of Immunobiology and Epigenetics in Freiburg in collaboration with colleagues from the Friedrich Mischer Institute in Basel now reveal a yet unknown and critical role of the protein HP1a in the 3D genome re-organization after fertilisation. The study published in the scientific journal Nature identifies HP1a as an epigenetic regulator that is involved in establishing the global structure of the genome in the early Drosophila embryo.

The information of the human genome is encoded by approximately 3 billion DNA base pairs and packaged into 23 pairs of chromosomes. If all chromosomes could be disentangled and linearly aligned, they would be a thin thread of about 2 meters. The DNA molecule must be extensively packaged to fit inside the nucleus, the size of which is in the micrometer range. "The DNA thread is not simply stuffed into the cell nucleus. Instead, it is folded in a very organized way to ensure that different parts of the genome, sometimes several thousand base pairs away from each other, can intercommunicate for appropriate gene functions," says Nicola Iovino, group leader at the MPI of Immunobiology and Epigenetics in Freiburg.

Part of this packaging are histone proteins acting as spools around which DNA is winded and thereby compacted. This complex of DNA and proteins is called chromatin. As such, chromatin is the fundament for further packaging of the genetic material into chromosomes whose structure is mostly known for its characteristic cross shape. The chromosomes themself occupy distinct positions within the nucleus, known as chromosome territories, that also enable efficient packaging and organization of the genome.

The full machinery contributing to this 3D chromatin organization remains unexplored. Now the lab of Nicola Iovino at the MPI in Freiburg, in collaboration with Luca Giorgetti from the Friedrich Miescher Institute in Basel (Switzerland), was able to show the fundamental role of the heterochromatin protein 1a (HP1a) in the reorganization of the 3D chromatin structure after fertilization. By combining powerful Drosophila genetics with 3D genome modeling, they discovered that HP1a is required to establish a proper chromatin 3D structure at multiple hierarchical levels during early embryonic development.

Early embryos as a model to study chromatin reprogramming

The degree of packaging as well as the corresponding gene activity is influenced by epigenetic modifications. These are small chemical groups that are installed on the histones. "Proteins that carry out these epigenetic modifications can be thought of as being either writers, erasers or reader of the given epigenetic modification. We discovered that the reader protein HP1a is required to establish chromatin structure during early embryonic development in Drosophila", says Fides Zenk, first-author of the study.

Early embryonic development is a particularly interesting time window to study the processes governing the organization of chromatin. At fertilization, two highly specialized cells - sperm and egg - fuse. The resulting totipotent zygote will ultimately give rise to all the different cells of the body. Interestingly most of the epigenetic modifications that shape chromatin are erased and have to be established de novo. In Drosophila, the lab of Nicola Iovino had previously shown that after fertilization chromatin undergoes major restructuring events. Thus, it is the ideal model system to study the processes underlying the establishment of chromatin structure. De novo establishment of 3D genome architecture

When the genome of the zygote is activated for the first time after fertilization, it triggers global de novo 3D chromatin reorganization including a clustering of highly compacted regions around the centromere (pericentromeric), the folding of chromosome arms and the segregation of chromosomes into active and inactive compartments. "We identified HP1a as an important epigenetic regulator necessary to maintain individual chromosome integrity but also central for establishing the global structure of the genome in the early embryo," says Nicola Iovino. 3D genome simulation

These findings and data collected in Drosophila embryos have then been used by collaborators from the Friedrich Miescher Institute (FMI) lead by Luca Giorgetti to build realistic three-dimensional models of chromosomes. This is possible because chromosomes inside the cell nucleus are polymers, very large molecules composed of chains of smaller components (monomers) - in this case consecutive DNA base pairs and the DNA-binding proteins that together constitute the chromatin fiber. Like all other polymers, be it silk, polyethylene or polyester, chromatin obeys a general set of physical laws described by a branch of physics known as 'polymer physics'. These laws can be encoded into computer programs and used to simulate the three-dimensional shape of chromosomes in the nucleus.

"The advantage of this approach is that it allows simulating the effects of very large numbers of mutations. This enables researchers to explore scenarios that are beyond experimental reach, such as the simultaneous depletion of many different proteins that would require years of lab work. By comparing simulations with the outcome of experiments, this approach also allows to test alternative hypotheses concerning the mechanisms that lay at the basis of experimental observations," says Luca Giorgetti, group leader at the Friedrich Miescher Institute in Basel.

In this case, FMI researchers used polymer models of the entire Drosophila genome to ask the question: based on the basic laws of polymer physics, is it possible that the depletion of a single protein - HP1 - leads to a massive change in the associations and shape of chromosomes in the nucleus? Or are additional mechanisms needed to explain the experimental observations? "We found that removal of the protein to its binding sites in the simulations accounted for the full set of experimental results, thus providing further confirmation that HP1 plays a key role in establishing the three-dimensional structure of the genome" says Yinxiu Zhan, co-first-author of the study.

INFORMATION:

Original publication Zenk F, Zhan Y, Kos P, Löser E, Atinbayeva N, Schächtle M, Tiana G, Giorgetti L, Iovino N HP1 drives de novo 3D genome reorganization in early Drosophila embryos Nature (April 14, 2021)


[Attachments] See images for this press release:
The architect of genome folding

ELSE PRESS RELEASES FROM THIS DATE:

Potential impact of pass/fail USMLE Step 1 scoring on radiology residency applications

Potential impact of pass/fail USMLE Step 1 scoring on radiology residency applications
2021-04-15
Leesburg, VA, April 15, 2021--A Scientific E-Poster to be presented at the 2021 ARRS Virtual Annual Meeting found that as the United States Medical Licensing Examination (USMLE) Step 1 transitions from a numerical score to pass or fail--as early as January 2022--radiology residency program directors will likely rely on USMLE Step 2 Clinical Knowledge (CK) scores as an objective and standardized metric to screen applicants. "However," wrote lead investigator Rebecca Zhang of the University of Maryland School of Medicine in Baltimore, "program directors remain unsure whether they will ...

Outcome predictive performance of admission chest radiographs in COVID-19 patients

Outcome predictive performance of admission chest radiographs in COVID-19 patients
2021-04-15
Leesburg, VA, April 15, 2021--A Scientific E-Poster to be presented at the 2021 ARRS Virtual Annual Meeting found that in the setting of a high pretest probability of COVID-19 infection or with a quick turnaround of the rapid real-time reverse transcriptase-polymerase chain reaction (RT-PCR) COVID-19 test, a chest x-ray (CXR) scoring system may be used prospectively to predict patient outcomes. "We developed an accurate and reliable tool for classifying COVID-19 severity, which can be used both at the attending chest radiologist and junior resident level. This study identifies the laboratory, clinical and radiographic data that predict important patient outcomes such as death, intubation, and the need for chronic renal replacement ...

TPU scientists find method to more effectively predict properties of ClO2 isotopologues

2021-04-15
Scientists of Tomsk Polytechnic University has conducted research on the 35ClO2 isotope and developed a mathematical model and software, which allow predicting characteristics by 10 folds more accurate than already known results. The research work was conducted by a research team of Russian, German and Swiss scientists. The research findings are published in the Physical Chemistry Chemical Physics (IF: 3,4; Q1) academic journal and listed as one of the best articles. The ClO2 molecule is extremely important for medicine and biophysics, as well as for the Earth atmosphere. It is used in medicine for disinfection and ...

How changing income assistance payment schedules impact drug use and related harm

2021-04-15
A study published this week in The Lancet Public Health examines how we can use our income assistance systems to address drug use and drug-related harm. The study, led by University of British Columbia (UBC) medical sociologist Dr. Lindsey Richardson and conducted at the British Columbia Centre on Substance Use (BCCSU), tests whether varying the timing and frequency of income assistance payments can mitigate drug-related harms linked to the existing once-monthly payment schedule that is common across North America and Europe. Monthly synchronized income assistance payments have long been linked to considerable and costly increases in drug use and resulting harm, including overdose, hospital admission, treatment interruption and emergency service calls. The study finds that varying when ...

HIV has been had

HIV has been had
2021-04-15
Tokyo, Japan - A team of scientists led by the Institute of Biomaterials and Bioengineering at Tokyo Medical and Dental University (TMDU) have created novel molecules that prevent human immunodeficiency virus (HIV) particles from attacking immune cells. This is accomplished by injecting compounds mimicking the protein the virus usually uses to enter the cells. This work may lead to new treatments for HIV that may be more effective at stopping the proliferation of the virus with fewer side effects. HIV is a very dangerous pathogen because it attacks the very immune cells, including T helper cells, that are needed for the body to fight back. An HIV particle first ...

New benefits from anti-diabetic drug metformin

New benefits from anti-diabetic drug metformin
2021-04-15
Researchers from Kumamoto University (Japan) have found that the anti-diabetic drug metformin significantly prolongs the survival of mice in a model that simulates the pathology of non-diabetic chronic kidney disease (ND-CKD) by ameliorating pathological conditions like reduced kidney function, glomerular damage, inflammation and fibrosis. Metformin's mechanism is different from existing therapeutics which only treat symptoms, such as the blood pressure drug losartan, so the researchers believe that a combination of these medications at low dose will be highly beneficial. CKD (chronic kidney disease) ...

Uncovering the secrets of some of the world's first color photographs

2021-04-15
It is often said that before air travel our skies were bluer yet how, in the 21st century, could we ever know what light and colors were like one hundred years ago? Recently, a group of researchers from EPFL's Audiovisual Communications Laboratory, in the School of Computer and Communication Sciences (IC), had a unique opportunity to try to find out. Normally hidden treasures locked away in the vaults of a handful of museums, the researchers were offered access to some of the original photographic plates and images of the scientist and inventor Gabriel Lippmann, who won the 1908 Nobel Prize in physics for his method of reproducing colors in photography. In a paper just published in the Proceedings of the National ...

Recent wildlife documentaries affect public understanding of wider conservation

2021-04-15
Research led by the University of Kent's Durrell Institute of Conservation and Ecology (DICE) has found that the personification of animals in recent wildlife documentaries leads to significant misinformation and creates problems for public understanding of wider conservation. In a research paper published by People and Nature, Professor Keith Somerville (DICE), Dr Amy Dickman, Dr Paul Johnson (both from the Wildlife Conservation Research Unit, University of Oxford), and Professor Adam Hart (University of Gloucestershire) argue that the portrayal of charismatic animals in nature films, while ...

Objective analysis of stress in the classroom

2021-04-15
"This enables us to contrast the subjective perception of stress with an objective measurement method and compare the two," explains Nina Minkley. Contrary to expectations, it turned out that the effort invested in the task does not increase with its difficulty, nor does the stress level. The study was featured in the journal Frontiers in Education on 12. April 2021. Simple questionnaire surveys criticised To date, the stress experience of students has mostly been surveyed with questionnaires. But this approach has been criticised, because many factors have an effect on one's own perception that have nothing to do with the task. "For example, women often report higher stress levels ...

Researchers identify five double star systems potentially suitable for life

2021-04-15
Almost half a century ago the creators of Star Wars imagined a life-sustaining planet, Tatooine, orbiting a pair of stars. Now, 44 years later, scientists have found new evidence that that five known systems with multiple stars, Kepler-34, -35, -38, -64 and -413, are possible candidates for supporting life. A newly developed mathematical framework allowed researchers at New York University Abu Dhabi and the University of Washington to show that those systems -- between 2764 and 5933 light years from Earth, in the constellations Lyra and Cygnus -- support a permanent "Habitable Zone", a region around stars in which liquid water could ...

LAST 30 PRESS RELEASES:

Development of a global innovative drug in eye drop form for treating dry age-related macular degeneration

Scientists unlock secrets behind flowering of the king of fruits

Texas A&M researchers illuminate the mysteries of icy ocean worlds

Prosthetic material could help reduce infections from intravenous catheters

Can the heart heal itself? New study says it can

Microscopic discovery in cancer cells could have a big impact

Rice researchers take ‘significant leap forward’ with quantum simulation of molecular electron transfer

Breakthrough new material brings affordable, sustainable future within grasp

How everyday activities inside your home can generate energy

Inequality weakens local governance and public satisfaction, study finds

Uncovering key molecular factors behind malaria’s deadliest strain

UC Davis researchers help decode the cause of aggressive breast cancer in women of color

Researchers discovered replication hubs for human norovirus

SNU researchers develop the world’s most sensitive flexible strain sensor

Tiny, wireless antennas use light to monitor cellular communication

Neutrality has played a pivotal, but under-examined, role in international relations, new research shows

Study reveals right whales live 130 years — or more

Researchers reveal how human eyelashes promote water drainage

Pollinators most vulnerable to rising global temperatures are flies, study shows

DFG to fund eight new research units

Modern AI systems have achieved Turing's vision, but not exactly how he hoped

Quantum walk computing unlocks new potential in quantum science and technology

Construction materials and household items are a part of a long-term carbon sink called the “technosphere”

First demonstration of quantum teleportation over busy Internet cables

Disparities and gaps in breast cancer screening for women ages 40 to 49

US tobacco 21 policies and potential mortality reductions by state

AI-driven approach reveals hidden hazards of chemical mixtures in rivers

Older age linked to increased complications after breast reconstruction

ESA and NASA satellites deliver first joint picture of Greenland Ice Sheet melting

Early detection model for pancreatic necrosis improves patient outcomes

[Press-News.org] The architect of genome folding
Epigenetic regulator HPI1a drives de novo genome reorganization in early Drosophila embryos