Corporate Banner
Satellite Banner
Genomics
Scientific Community
 
Become a Member | Sign in
Home>News>This Article
  News
Return

Brain Development Is Guided by Junk DNA that Isn’t Really Junk

Published: Tuesday, April 16, 2013
Last Updated: Tuesday, April 16, 2013
Bookmark and Share
Specific DNA once dismissed as junk plays an important role in brain development and might be involved in several devastating neurological diseases, UC San Francisco scientists have found.

Their discovery in mice is likely to further fuel a recent scramble by researchers to identify roles for long-neglected bits of DNA within the genomes of mice and humans alike.

While researchers have been busy exploring the roles of proteins encoded by the genes identified in various genome projects, most DNA is not in genes. This so-called junk DNA has largely been pushed aside and neglected in the wake of genomic gene discoveries, the UCSF scientists said.

In their own research, the UCSF team studies molecules called long noncoding RNA (lncRNA, often pronounced as “link” RNA), which are made from DNA templates in the same way as RNA from genes.

“The function of these mysterious RNA molecules in the brain is only beginning to be discovered,” said Daniel Lim, MD, PhD, assistant professor of neurological surgery, a member of the Eli and Edythe Broad Center of Regeneration Medicine and Stem Cell Research at UCSF, and the senior author of the study, published online April 11 in the journal Cell Stem Cell.

Alexander Ramos, a student enrolled in the MD/PhD program at UCSF and first author of the study, conducted extensive computational analysis to establish guilt by association, linking lncRNAs within cells to the activation of genes.

Ramos looked specifically at patterns associated with particular developmental pathways or with the progression of certain diseases. He found an association between a set of 88 long noncoding RNAs and Huntington’s disease, a deadly neurodegenerative disorder. He also found weaker associations between specific groups of long noncoding RNAs and Alzheimer’s disease, convulsive seizures, major depressive disorder and various cancers.

“Alex was the team member who developed this new research direction, did most of the experiments, and connected results to the lab’s ongoing work,” Lim said. The study was mostly funded through Lim’s grant – a National Institutes of Health (NIH) Director’s New Innovator Award, a competitive award for innovative projects that have the potential for unusually high impact.

LncRNA versus Messenger RNA

Unlike messenger RNA, which is transcribed from the DNA in genes and guides the production of proteins, lncRNA molecules do not carry the blueprints for proteins. Because of this fact, they were long thought to not influence a cell’s fate or actions.

Nonetheless, lncRNAs also are transcribed from DNA in the same way as messenger RNA, and they, too, consist of unique sequences of nucleic acid building blocks.
Evidence indicates that lncRNAs can tether structural proteins to the DNA-containing chromosomes, and in so doing indirectly affect gene activation and cellular physiology without altering the genetic code. In other words, within the cell, lncRNA molecules act “epigenetically” — beyond genes — not through changes in DNA.

The brain cells that the scientists focused on the most give rise to various cell types of the central nervous system. They are found in a region of the brain called the subventricular zone, which directly overlies the striatum. This is the part of the brain where neurons are destroyed in Huntington’s disease, a condition triggered by a single genetic defect.

Ramos combined several advanced techniques for sequencing and analyzing DNA and RNA to identify where certain chemical changes happen to the chromosomes, and to identify lncRNAs on specific cell types found within the central nervous system. The research revealed roughly 2,000 such molecules that had not previously been described, out of about 9,000 thought to exist in mammals ranging from mice to humans.

In fact, the researchers generated far too much data to explore on their own. The UCSF scientists created a website through which their data can be used by others who want to study the role of lncRNAs in development and disease.

“There’s enough here for several labs to work on,” said Ramos, who has training grants from the California Institute for Regenerative Medicine (CIRM) and the NIH.

“It should be of interest to scientists who study long noncoding RNA, the generation of new nerve cells in the adult brain, neural stem cells and brain development, and embryonic stem cells,” he said.


Further Information
Access to this exclusive content is for Technology Networks Premium members only.

Join Technology Networks Premium for free access to:

  • Exclusive articles
  • Presentations from international conferences
  • Over 2,500+ scientific posters on ePosters
  • More than 3,700+ scientific videos on LabTube
  • 35 community eNewsletters


Sign In



Forgotten your details? Click Here
If you are not a member you can join here

*Please note: By logging into TechnologyNetworks.com you agree to accept the use of cookies. To find out more about the cookies we use and how to delete them, see our privacy policy.

Related Content

Scientists Create CRISPR/Cas9 Knock-In Mutations in Human T Cells
In a project spearheaded by investigators at UC San Francisco, scientists have devised a new strategy to precisely modify human T cells using the genome-editing system known as CRISPR/Cas9.
Tuesday, July 28, 2015
Engineers Crack DNA Code of Autoimmune Disorders
Researchers have identified an unexpectedly general set of rules that determine which molecules can cause the immune system to become vulnerable to the autoimmune disorders lupus and psoriasis.
Wednesday, June 10, 2015
Genetic Markers for Detecting and Treating Ovarian Cancer
Custom bioinformatics algorithm identifies human mRNAs that distinguish ovarian cancer cells from normal cells and provide new therapeutic targets
Wednesday, May 27, 2015
Industry-Sponsored Academic Inventions Spur Increased Innovation
Analysis questions assumption that corporate support skews science toward inventions that are less useful than those funded by the government or non-profit organizations.
Monday, March 24, 2014
Researchers Change Cell Types by Flipping a Single Switch
New findings have identified a method for changing one cell type into another in a process called forced transdifferentiation.
Friday, December 06, 2013
Scientists Pinpoint Cell Type and Brain Region Affected by Gene Mutations in Autism
UCSF-led study zeroes in on when and where disrupted genes exert effects.
Tuesday, November 26, 2013
Digging Deeper Into Cancer
What a pathologist looks for in a Pap test sample, but hopes not to find, are oddly shaped cells with abnormally large nuclei. The same is true for prostate and lung cancer biopsies.
Tuesday, November 19, 2013
Nanotech Method Show Promise Against Pancreatic Cancer
Researchers at UCLA's Jonsson Comprehensive Cancer Center have developed a new technique for fighting deadly and hard-to-treat pancreatic cancer.
Monday, November 18, 2013
Researchers Un-Junking Junk DNA
A study shines a new light on molecular tools our cells use to govern regulated gene expression.
Wednesday, November 13, 2013
Fast-Mutating DNA Sequences Shape Early Development
What does it mean to be human? According to scientists the key lies, ultimately, in the billions of lines of genetic code that comprise the human genome.
Wednesday, November 13, 2013
Did Inefficient Cellular Machinery Evolve to Fight Viruses and Jumping Genes?
UCSF scientist poses new theory on origins of eukaryotic gene expression.
Monday, November 11, 2013
Powerful Anti-Cancer Compound Safely Delivered
Researchers have discovered a way to effectively deliver staurosporine (STS).
Tuesday, October 22, 2013
New Insights into How Proteins Regulate Genes
Researchers have developed a new way to parse and understand how special proteins called "master regulators" read the genome, and consequently turn genes on and off.
Monday, October 21, 2013
Cell Growth Discovery Has Implications for Targeting Cancer
The way cells divide to form new cells is controlled in previously unsuspected ways.
Monday, October 21, 2013
Single Gene Mutation Linked to Neurological Disorders
Mutation could offer insights into Alzheimer’s, Parkinson’s and Huntigton’s Diseases.
Wednesday, October 16, 2013
Scientific News
Liquid Biopsies: Utilization of Circulating Biomarkers for Minimally Invasive Diagnostics Development
Market Trends in Biofluid-based Liquid Biopsies: Deploying Circulating Biomarkers in the Clinic. Enal Razvi, Ph.D., Managing Director, Select Biosciences, Inc.
Watching a Tumour Grow in Real-Time
Researchers from the University of Freiburg have gained new insight into the phases of breast cancer growth.
Childhood Cancer Cells Drain Immune System’s Batteries
Cancer cells in neuroblastoma contain a molecule that breaks down a key energy source for the body’s immune cells, leaving them too physically drained to fight the disease.
Urine Proteins Point to Early-Stage Pancreatic Cancer
A combination of three proteins found at high levels in urine can accurately detect early-stage pancreatic cancer, researchers at the BCI have shown.
Researcher Discovers Trigger of Deadly Melanoma
New research sheds light on the precise trigger that causes melanoma cancer cells to transform from non-invasive cells to invasive killer agents, pinpointing the precise place in the process where "traveling" cancer turns lethal.
Genetic Tug of War
Researchers have reported on a version of genetic parental control in mice that is more targeted, and subtle than canonical imprinting.
Error Correction Mechanism in Cell Division
Cell biologists have reported an advance in understanding the workings of an error correction mechanism that helps cells detect and correct mistakes in cell division early enough to prevent chromosome mis-segregation and aneuploidy, that is, having too many or too few chromosomes.
How to Become a Follicular T Helper Cell
Uncovering the signals that govern the fate of T helper cells is a big step toward improved vaccine design.
Researchers Resurrect Ancient Viruses
Researchers at Massachusetts Eye and Ear and Schepens Eye Research Institute have reconstructed an ancient virus that is highly effective at delivering gene therapies to the liver, muscle, and retina.
Cell Aging Slowed by Putting Brakes on Noisy Transcription
Experiments in yeast hint at ways to extend life of some human cells.
Skyscraper Banner

Skyscraper Banner
Go to LabTube
Go to eposters
 
Access to the latest scientific news
Exclusive articles
Upload and share your posters on ePosters
Latest presentations and webinars
View a library of 1,800+ scientific and medical posters
2,500+ scientific and medical posters
A library of 2,500+ scientific videos on LabTube
3,700+ scientific videos
Close
Premium CrownJOIN TECHNOLOGY NETWORKS PREMIUM FREE!