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

Encyclopedia of how genomes function gets much bigger

Berkeley Lab scientists contribute to NIH-funded analyses of human, worm, fly genomes

2014-08-27
(Press-News.org) A big step in understanding the mysteries of the human genome was unveiled today in the form of three analyses that provide the most detailed comparison yet of how the genomes of the fruit fly, roundworm, and human function.

The research, appearing August 28 in in the journal Nature, compares how the information encoded in the three species' genomes is "read out," and how their DNA and proteins are organized into chromosomes.

The results add billions of entries to a publicly available archive of functional genomic data. Scientists can use this resource to discover common features that apply to all organisms. These fundamental principles will likely offer insights into how the information in the human genome regulates development, and how it is responsible for diseases.

The analyses were conducted by two consortia of scientists that include researchers from the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab). Both efforts were funded by the National Institutes of Health's National Human Genome Research Institute.

One of the consortiums, the "model organism Encyclopedia of DNA Elements" (modENCODE) project, catalogued the functional genomic elements in the fruit fly and roundworm. Susan Celniker and Gary Karpen of Berkeley Lab's Life Sciences Division led two fruit fly research groups in this consortium. Ben Brown, also with the Life Sciences Division, participated in another consortium, ENCODE, to identify the functional elements in the human genome.

The consortia are addressing one of the big questions in biology today: now that the human genome and many other genomes have been sequenced, how does the information encoded in an organism's genome make an organism what it is? To find out, scientists have for the past several years studied the genomes of model organisms such as the fruit fly and roundworm, which are smaller than our genome, yet have many genes and biological pathways in common with humans. This research has led to a better understanding of human gene function, development, and disease.

Comparing transcriptomes

In all organisms, the information encoded in genomes is transcribed into RNA molecules that are either translated into proteins, or utilized to perform functions in the cell. The collection of RNA molecules expressed in a cell is known as its transcriptome, which can be thought of as the "read out" of the genome.

In the research announced today, dozens of scientists from several institutions looked for similarities and differences in the transcriptomes of human, roundworm, and fruit fly. They used deep sequencing technology and bioinformatics to generate large amounts of matched RNA-sequencing data for the three species. This involved 575 experiments that produced more than 67 billion sequence reads.

A team led by Celniker, with help from Brown and scientists from several other labs, conducted the fruit fly portion of this research. They mapped the organism's transcriptome at 30 time points of its development. They also explored how environmental perturbations such as heavy metals, herbicides, caffeine, alcohol and temperature affect the fly's transcriptome. The result is the finest time-resolution analysis of the fly genome's "read out" to date—and a mountain of new data.

"We went from two billion reads in research we published in 2011, to 20 billion reads today," says Celniker. "As a result, we found that the transcriptome is much more extensive and complex than previously thought. It has more long non-coding RNAs and more promoters." When the scientists compared transcriptome data from all three species, they discovered 16 gene-expression modules corresponding to processes such as transcription and cell division that are conserved in the three animals. They also found a similar pattern of gene expression at an early stage of embryonic development in all three organisms. This work is described in a Nature article entitled "Comparative Analysis of the Transcriptome across Distant Species."

Comparing chromatin

Another group, also consisting of dozens of scientists from several institutions, analyzed chromatin, which is the combination of DNA and proteins that organize an organism's genome into chromosomes. Chromatin influences nearly every aspect of genome function.

Karpen led the fruit fly portion of this work, with Harvard Medical School's Peter Park contributing on the bioinformatics side, and scientists from several other labs also participating. The team mapped the distribution of chromatin proteins in the fruit fly genome. They also learned how chemical modifications to chromatin proteins impact genome functions.

Their results were compared with results from human and roundworm chromatin research. In all, the group generated 800 new chromatin datasets from different cell lines and developmental stages of the three species, bringing the total number of datasets to more than 1400. These datasets are presented in a Nature article entitled "Comparative Analysis of Metazoan Chromatin Organization."

Here again, the scientists found many conserved chromatin features among the three organisms. They also found significant differences, such as in the composition and locations of repressive chromatin.

But perhaps the biggest scientific dividend is the data itself.

"We found many insights that need follow-up," says Karpen. "And we've also greatly increased the amount of data that others can access. These datasets and analyses will provide a rich resource for comparative and species-specific investigations of how genomes, including the human genome, function."

INFORMATION: Lawrence Berkeley National Laboratory addresses the world's most urgent scientific challenges by advancing sustainable energy, protecting human health, creating new materials, and revealing the origin and fate of the universe. Founded in 1931, Berkeley Lab's scientific expertise has been recognized with 13 Nobel prizes. The University of California manages Berkeley Lab for the U.S. Department of Energy's Office of Science. For more, visit http://www.lbl.gov.

Berkeley Lab is supported by the Office of Science of the U.S. Department of Energy. The Office of Science is the single largest supporter of basic research in the physical sciences in the United States, and is working to address some of the most pressing challenges of our time. For more information, please visit science.energy.gov.


ELSE PRESS RELEASES FROM THIS DATE:

Rubber meets the road with new ORNL carbon, battery technologies

Rubber meets the road with new ORNL carbon, battery technologies
2014-08-27
OAK RIDGE, Tenn., Aug. 27, 2014 – Recycled tires could see new life in lithium-ion batteries that provide power to plug-in electric vehicles and store energy produced by wind and solar, say researchers at the Department of Energy's Oak Ridge National Laboratory. By modifying the microstructural characteristics of carbon black, a substance recovered from discarded tires, a team led by Parans Paranthaman and Amit Naskar is developing a better anode for lithium-ion batteries. An anode is a negatively charged electrode used as a host for storing lithium during charging. The ...

Gang life brings deep health risks for girls

2014-08-27
Being involved in a gang poses considerable health-related risks for adolescent African American girls, including more casual sex partners and substance abuse combined with less testing for HIV and less knowledge about preventing sexually transmitted diseases, according to a new study. The findings come from a questionnaire survey with 188 African American females, ages 13 to 17, who were incarcerated in a short-term detention facility in Atlanta. The data showed that low self-esteem, emotional problems, trauma history, low parental monitoring, friends who engage in risky ...

Kessler Foundation researchers publish first study of brain activation in MS using fNIRS

Kessler Foundation researchers publish first study of brain activation in MS using fNIRS
2014-08-27
West Orange, NJ. August 27, 2014. Using functional near infrared spectroscopy (fNIRS), Kessler Foundation researchers have shown differential brain activation patterns between people with multiple sclerosis (MS) and healthy controls. This is the first MS study in which brain activation was studied using fNIRS while participants performed a cognitive task. The article, "Neuroimaging and cognition using functional near infrared spectroscopy (fNIRS) in multiple sclerosis," was published online on June 11 by Brain Imaging and Behavior. Authors are Jelena Stojanovic-Radic, PhD, ...

Water 'thermostat' could help engineer drought-resistant crops

2014-08-27
DURHAM, N.C. -- Duke University researchers have identified a gene that could help scientists engineer drought-resistant crops. The gene, called OSCA1, encodes a protein in the cell membrane of plants that senses changes in water availability and adjusts the plant's water conservation machinery accordingly. "It's similar to a thermostat," said Zhen-Ming Pei, an associate professor of biology at Duke. The findings, which appear Aug. 28 in the journal Nature, could make it easier to feed the world's growing population in the face of climate change. Drought is the ...

Detecting neutrinos, physicists look into the heart of the sun

Detecting neutrinos, physicists look into the heart of the sun
2014-08-27
AMHERST, Mass. – Using one of the most sensitive neutrino detectors on the planet, an international team of physicists including Andrea Pocar, Laura Cadonati and doctoral student Keith Otis at the University of Massachusetts Amherst report in the current issue of Nature that for the first time they have directly detected neutrinos created by the "keystone" proton-proton (pp) fusion process going on at the sun's core. The pp reaction is the first step of a reaction sequence responsible for about 99 percent of the Sun's power, Pocar explains. Solar neutrinos are produced ...

Flexing the brain: Why learning tasks can be difficult

Flexing the brain: Why learning tasks can be difficult
2014-08-27
VIDEO: Learning a new skill is easier when it is related to an ability we already have. For example, a trained pianist can learn a new melody easier than learning how... Click here for more information. PITTSBURGH—Learning a new skill is easier when it is related to an ability we already have. For example, a trained pianist can learn a new melody easier than learning how to hit a tennis serve. Scientists from the Center for the Neural Basis of Cognition (CNBC) – a joint program ...

Stanford researchers work to understand gene expression across organisms

2014-08-27
Fruit flies and roundworms have long been used as model organisms to learn more about human biology and disease. Now, researchers at the Stanford University School of Medicine have found that although many aspects of regulatory networks are conserved among the three distantly related organisms, other differences have emerged over evolutionary time. These differences may explain why, for example, worms slither, flies fly and humans walk on two legs, even though they all use the same basic genetic building blocks. "We're trying to understand the basic principles that ...

Evolution used similar molecular toolkits to shape flies, worms, and humans

2014-08-27
Although separated by hundreds of millions of years of evolution, flies, worms, and humans share ancient patterns of gene expression, according to a massive Yale-led analysis of genomic data. Two related studies led by scientists at Harvard and Stanford, also published Aug. 28 in the same issue of the journal Nature, tell a similar story: Even though humans, worms, and flies bear little obvious similarity to each other, evolution used remarkably similar molecular toolkits to shape them. However, the same Yale lab reports in a separate paper published in the Proceedings ...

Neuroscientists reverse memories' emotional associations

2014-08-27
CAMBRIDGE, MA -- Most memories have some kind of emotion associated with them: Recalling the week you just spent at the beach probably makes you feel happy, while reflecting on being bullied provokes more negative feelings. A new study from MIT neuroscientists reveals the brain circuit that controls how memories become linked with positive or negative emotions. Furthermore, the researchers found that they could reverse the emotional association of specific memories by manipulating brain cells with optogenetics — a technique that uses light to control neuron activity. The ...

Scientists map the 'editing marks' on fly, worm, human genomes

2014-08-27
The genome we inherited from our parents shapes many aspects of our lives. But in addition to our genome we have an epigenome that is set during development, but can be altered by our lifestyle habits and environmental exposures—and perhaps by those of our parents and grandparents. The epigenome consists of chemical tags on our DNA and supporting proteins that determine whether genes are expressed or silenced. This means we are deeply responsible for our own health, but also that it may be possible to diagnose and treat the many diseases caused by the deregulation of ...

LAST 30 PRESS RELEASES:

How can brands address growing consumer scepticism?

New paradigm of quantum information technology revealed through light-matter interaction!

MSU researchers find trees acclimate to changing temperatures

World's first visual grading system developed to combat microplastic fashion pollution

Teenage truancy rates rise in English-speaking countries

Cholesterol is not the only lipid involved in trans fat-driven cardiovascular disease

Study: How can low-dose ketamine, a ‘lifesaving’ drug for major depression, alleviate symptoms within hours? UB research reveals how

New nasal vaccine shows promise in curbing whooping cough spread

Smarter blood tests from MSU researchers deliver faster diagnoses, improved outcomes

Q&A: A new medical AI model can help spot systemic disease by looking at a range of image types

For low-risk pregnancies, planned home births just as safe as birth center births, study shows

Leaner large language models could enable efficient local use on phones and laptops

‘Map of Life’ team wins $2 million prize for innovative rainforest tracking

Rise in pancreatic cancer cases among young adults may be overdiagnosis

New study: Short-lived soda tax reinforces alternative presumptions on tax impacts on consumer behaviors

Fewer than 1 in 5 know the 988 suicide lifeline

Semaglutide eligibility across all current indications for US adults

Can podcasts create healthier habits?

Zerlasiran—A small-interfering RNA targeting lipoprotein(a)

Anti-obesity drugs, lifestyle interventions show cardiovascular benefits beyond weight loss

Oral muvalaplin for lowering of lipoprotein(a)

Revealing the hidden costs of what we eat

New therapies at Kennedy Krieger offer effective treatment for managing Tourette syndrome

American soil losing more nutrients for crops due to heavier rainstorms, study shows

With new imaging approach, ADA Forsyth scientists closely analyze microbial adhesive interactions

Global antibiotic consumption has increased by more than 21 percent since 2016

New study shows how social bonds help tool-using monkeys learn new skills

Modeling and analysis reveals technological, environmental challenges to increasing water recovery from desalination

Navy’s Airborne Scientific Development Squadron welcomes new commander

TāStation®'s analytical power used to resolve a central question about sweet taste perception

[Press-News.org] Encyclopedia of how genomes function gets much bigger
Berkeley Lab scientists contribute to NIH-funded analyses of human, worm, fly genomes