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

Case Western Reserve scientists find hidden meaning and 'speed limits' within genetic code

Finding could open unique avenues for treating illness

2015-03-12
(Press-News.org) Case Western Reserve scientists have discovered that speed matters when it comes to how messenger RNA (mRNA) deciphers critical information within the genetic code -- the complex chain of instructions critical to sustaining life. The investigators' findings, which appear in the March 12 journal Cell, give scientists critical new information in determining how best to engage cells to treat illness -- and, ultimately, keep them from emerging in the first place.

"Our discovery is that the genetic code is more complex than we knew," said senior researcher Jeff Coller, PhD, associate professor, Division of General Medical Sciences, and associate director, The Center for RNA Molecular Biology, Case Western Reserve University School of Medicine. "With this information, researchers can manipulate the genetic code to achieve more predictable outcomes in an exquisite fashion."

The genetic code is a system of instructions embedded within DNA. The code tells a cell how to generate proteins that control cellular functions. mRNA transmits the instructions from DNA to ribosomes. Ribosomes translate the information contained within the mRNA and produce the instructed protein. The genetic code comprises 61 words, called "codons," and a single codon, a sequence of three nucleotides, instructs the ribosome how to build proteins.

The code not only dictates what amino acids are incorporated into proteins, it also tells the cell how fast they should be incorporated. With this information, researchers can manipulate the genetic code to achieve predictable protein levels in an exquisite fashion."

The most significant breakthrough in the Case Western Reserve work is that all of the words, or codons, in the genetic code are deciphered at different rates; some are deciphered rapidly while others are deciphered slowly. The speed of how mRNA decodes its information is the sum of all the codons it contains. This imposed speed limit then ultimately affects the amount of protein produced. Sometimes faster is better to express a high level of protein. Sometimes slower is better to limit the amount protein. Importantly, codons are redundant -- many of these words mean the same thing.

Coller and colleagues found that each of the codons is recognized differently by a ribosome. Some codons are recognized faster than others, but these differences in speed are tiny. Over the entire span of an mRNA, however, each tiny difference in speed is powerfully additive.

"Many codons mean the same thing, but they influence decoding rate differently. Because of this, we can change an mRNA without changing its protein sequence and cause it to be highly expressed or poorly expressed and anywhere in between," he said. "We can literally dial up or down protein levels any way we want now that we know this information."

During their research, investigators measured the mRNA decay rate for every transcript within the cell. They were seeking answers for why different RNAs had different stabilities. With statistical analysis, investigators compared the half-lives of mRNAs to the codons used within these messages. A strong correlation emerged between codon identity and mRNA message stability. They ultimately linked these observations back to the process of mRNA translation.

"mRNA translation and mRNA decay are intimately connected. This can be very beneficial to scientists. If you would like a gene to be expressed really well, you simply change the protein sequence to be derived by all optimal codons. This will both stabilize the mRNA and cause it to be translated more efficiently," Coller said. "If you need an mRNA to express at a low level, you fill it with non-optimal codons. The mRNA will be poorly translated and thus unstable. Evolution has used codon optimization to shape the expression of the proteome. Genes of similar function use similar codons; therefore, they are expressed at similar levels."

His discovery has a variety of practical implications for medicine. From a bioengineering perspective, molecular biology techniques can be applied to manipulate the gene to contain ideal codons and obtain the gene expression pattern that is most beneficial to the application. From a human physiological standpoint, it's possible to learn the speed limit for each and every mRNA and then determine if this changes in specific pathologies such as cancer. Currently, it is unknown whether codons convey different speeds in disease states. A future direction for research will be to link codon speeds to specific illnesses. The potential is also there to develop drugs that can manipulate higher or lower gene expression by changing the decoding rate.

Codon activity also may also provide important clues about the source of many illnesses that have not been linked to specific gene mutations. Altering codon-dependent translation rates has the potential to change protein function profoundly, and no primary mutation will be detected. Rather the problem is not the gene itself, but the factors that influence decoding rates. Codon-dependent speed limits may underlie the cause of whole classes of disease states. For example, a recent study suggests that in more than 450 different cancer samples, factors influencing codon-dependent speed limits might be changing.

"The sky is the limit," Coller said. "Since this finding is so new, we have no idea what the potential is. The next step is to determine if changes in decoding speed can be an underlying mechanism that alters gene expression in human disease."

INFORMATION:

Joining Coller in this research were Nathan Morris, PhD, the Center for Clinical Investigation, CWRU School of Medicine, and Kristian Baker, PhD, the Center for RNA Molecular Biology, CWRU School of Medicine, and Brenton Graveley, PhD, the University of Connecticut Health Center.

National Institutes of Health grant GM080465 funded this research.

About Case Western Reserve University School of Medicine Founded in 1843, Case Western Reserve University School of Medicine is the largest medical research institution in Ohio and is among the nation's top medical schools for research funding from the National Institutes of Health. The School of Medicine is recognized throughout the international medical community for outstanding achievements in teaching. The School's innovative and pioneering Western Reserve2 curriculum interweaves four themes--research and scholarship, clinical mastery, leadership, and civic professionalism--to prepare students for the practice of evidence-based medicine in the rapidly changing health care environment of the 21st century. Nine Nobel Laureates have been affiliated with the School of Medicine.

Annually, the School of Medicine trains more than 800 MD and MD/PhD students and ranks in the top 25 among U.S. research-oriented medical schools as designated by U.S. News & World Report's "Guide to Graduate Education."

The School of Medicine's primary affiliate is University Hospitals Case Medical Center and is additionally affiliated with MetroHealth Medical Center, the Louis Stokes Cleveland Department of Veterans Affairs Medical Center, and the Cleveland Clinic, with which it established the Cleveland Clinic Lerner College of Medicine of Case Western Reserve University in 2002. http://casemed.case.edu



ELSE PRESS RELEASES FROM THIS DATE:

Molecule-making machine simplifies complex chemistry

Molecule-making machine simplifies complex chemistry
2015-03-12
CHAMPAIGN, Ill. -- A new molecule-making machine could do for chemistry what 3-D printing did for engineering: Make it fast, flexible and accessible to anyone. Chemists at the University of Illinois, led by chemistry professor and medical doctor Martin D. Burke, built the machine to assemble complex small molecules at the click of a mouse, like a 3-D printer at the molecular level. The automated process has the potential to greatly speed up and enable new drug development and other technologies that rely on small molecules. "We wanted to take a very complex process, ...

Inflammatory factor IL-3 may play essential role in development of sepsis

2015-03-12
A new study finds that Interleukin-3 (IL-3), an inflammatory factor most associated with allergic reactions, appears to have an important role in the overwhelming, life-threatening immune reaction called sepsis. In the March 13 issue of Science, investigators from Massachusetts General Hospital (MGH) describe finding that the presence of IL-3 is essential to the development of sepsis in a mouse model of the condition and that IL-3 levels in human patients with sepsis are higher in those at greater risk of dying. "Sepsis is an extremely dangerous conditions that claims ...

Humans adapted to living in rainforests much sooner than thought

Humans adapted to living in rainforests much sooner than thought
2015-03-12
An international research team has shed new light on the diet of some of the earliest recorded humans in Sri Lanka. The researchers from Oxford University, working with a team from Sri Lanka and the University of Bradford, analysed the carbon and oxygen isotopes in the teeth of 26 individuals, with the oldest dating back 20,000 years. They found that nearly all the teeth analysed suggested a diet largely sourced from the rainforest. This study, published in the early online edition of the journal, Science, shows that early modern humans adapted to living in the rainforest ...

Measles cases predicted to almost double in Ebola epidemic countries

2015-03-12
An international study involving the University of Southampton suggests there could be a rise in measles cases of 100,000 across the three countries most affected by the Ebola outbreak in West Africa due to health system disruptions. The research in the journal Science, led by Princeton and Johns Hopkins University in the USA, predicts that the size of a measles outbreak will increase from 127,000 at the start of the Ebola epidemic in early 2014, to 227,000 after 18 months of the outbreak. This would result in an additional 5,000 measles deaths, and potentially as many ...

Political liberals display greater happiness, UCI study finds

2015-03-12
Irvine, Calif. - What does it mean to be happy? Is it how happy you say you are, or is it how happy you act? Previous research has found that political conservatives report being happier than political liberals. But UC Irvine psychologists have discovered that those on the left exhibit happier speech patterns and facial expressions. "The so-called 'happiness gap' between liberals and conservatives is more complicated than we thought," said Sean Wojcik, a doctoral student in psychology & social behavior at UCI and lead author of the study, which appears this month in Science. Prior ...

Summer storm weakening leads to more persistent heat extremes

2015-03-12
This is shown in a study to be published in the renowned journal Science by a team of researchers from the Potsdam Institute for Climate Impact Research. They link the findings to changes in the Arctic caused by man-made global warming. "When the great air streams in the sky above us get disturbed by climate change, this can have severe effects on the ground," says lead-author Dim Coumou. "While you might expect reduced storm activity to be something good, it turns out that this reduction leads to a greater persistence of weather systems in the Northern hemisphere mid-latitudes. ...

Magnetic brain stimulation

2015-03-12
CAMBRIDGE, Mass--Researchers at MIT have developed a method to stimulate brain tissue using external magnetic fields and injected magnetic nanoparticles -- a technique allowing direct stimulation of neurons, which could be an effective treatment for a variety of neurological diseases, without the need for implants or external connections. The research, conducted by Polina Anikeeva, an assistant professor of materials science and engineering, graduate student Ritchie Chen, and three others, has been published in the journal Science. Previous efforts to stimulate the ...

You are when you eat

2015-03-12
SAN DIEGO (Thursday, March 12, 2015) -- If you're looking to improve your heart health by changing your diet, when you eat may be just as important as what you eat. In a new study published today in Science, researchers at San Diego State University and the Salk Institute for Biological Studies found that by limiting the time span during which fruit flies could eat, they could prevent aging- and diet-related heart problems. The researchers also discovered that genes responsible for the body's circadian rhythm are integral to this process, but they're not yet sure how. Previous ...

3-D printer for small molecules opens access to customized chemistry

2015-03-12
Howard Hughes Medical Institute scientists have simplified the chemical synthesis of small molecules, eliminating a major bottleneck that limits the exploration of a class of compounds offering tremendous potential for medicine and technology. Scientists led by Martin Burke, an HHMI early career scientist at the University of Illinois at Urbana-Champaign, used a single automated process to synthesize 14 distinct classes of small molecules from a common set of building blocks. Burke's team envisions expanding the approach to enable the production of thousands of potentially ...

Distinct brain mechanisms related to dental pain relief

2015-03-12
Boston, Mass., USA - Today at the 93rd General Session and Exhibition of the International Association for Dental Research, researcher Michael L. Meier, Center for Dental Medicine, University of Zürich, Switzerland, will present a study titled "Distinct Brain Mechanisms Related to Dental Pain Relief." The IADR General Session is being held in conjunction with the 44th Annual Meeting of the American Association for Dental Research and the 39th Annual Meeting of the Canadian Association for Dental Research. Local anesthesia has made life more comfortable for dental ...

LAST 30 PRESS RELEASES:

Case Western Reserve University awarded $1.5 million to study vaginal bacterial linked to serious health risks

The next evolution of AI begins with ours

Using sunlight to recycle black plastics

ODS FeCrAl alloys endure liquid metal flow at 600 °C resembling a fusion blanket environment

A genetic key to understanding mitochondrial DNA depletion syndrome

The future of edge AI: Dye-sensitized solar cell-based synaptic device

Bats’ amazing plan B for when they can’t hear

Common thyroid medicine linked to bone loss

Vaping causes immediate effects on vascular function

A new clock to structure sleep

Study reveals new way to unlock blood-brain barrier, potentially opening doors to treat brain and nerve diseases

Viking colonizers of Iceland and nearby Faroe Islands had very different origins, study finds

One in 20 people in Canada skip doses, don’t fill prescriptions because of cost

Wildlife monitoring technologies used to intimidate and spy on women, study finds

Around 450,000 children disadvantaged by lack of school support for color blindness

Reality check: making indoor smartphone-based augmented reality work

Overthinking what you said? It’s your ‘lizard brain’ talking to newer, advanced parts of your brain

Black men — including transit workers — are targets for aggression on public transportation, study shows

Troubling spike in severe pregnancy-related complications for all ages in Illinois

Alcohol use identified by UTHealth Houston researchers as most common predictor of escalated cannabis vaping among youths in Texas

Need a landing pad for helicopter parenting? Frame tasks as learning

New MUSC Hollings Cancer Center research shows how Golgi stress affects T-cells' tumor-fighting ability

#16to365: New resources for year-round activism to end gender-based violence and strengthen bodily autonomy for all

Earliest fish-trapping facility in Central America discovered in Maya lowlands

São Paulo to host School on Disordered Systems

New insights into sleep uncover key mechanisms related to cognitive function

USC announces strategic collaboration with Autobahn Labs to accelerate drug discovery

Detroit health professionals urge the community to act and address the dangers of antimicrobial resistance

3D-printing advance mitigates three defects simultaneously for failure-free metal parts 

Ancient hot water on Mars points to habitable past: Curtin study

[Press-News.org] Case Western Reserve scientists find hidden meaning and 'speed limits' within genetic code
Finding could open unique avenues for treating illness