 |
|
Feeling sleepy is all in your genes
October 18, 2007Genes responsible for our 24 hour body clock influence not only the timing of sleep, but also appear to be central to the actual restorative process of sleep, according to research published in the online open access journal BMC Neuroscience. The study identified changes in the brain that lead to the increased desire and need for sleep during time spent awake.
"We still do not know why we benefit from sleep, or why we feel tired when we are 'lacking' sleep, but it seems likely that sleep serves some basic biological function for the brain such as energy restoration for brain cells or memory consolidation." Explains Dr Bruce O'Hara of the University of Kentucky, one of the neuroscientists who conducted the research. "We have found that clock gene expression in the brain is highly correlated to the build-up of sleep debt, while previous findings have linked these genes to energy metabolism. Together, this supports the idea that one function of sleep is related to energy metabolism."
To explore the connection between the expression of clock genes and sleep, three inbred strains of mice with different genetic make-ups were utilized, and which had previously been shown to differ in their response to sleep deprivation by lead author, Dr. Paul Franken of Stanford University and Lausanne University. In this study, mice were first sleep deprived during the daytime period when mice normally sleep then allowed recovery sleep. Changes in gene expression for three clock genes were examined throughout the brain during both phases. Clock gene expression generally increased the more the mice were kept awake and decreased when sleep was allowed, supporting that these genes play a role in the regulation of the need for sleep. Generally, the expression of the clock-genes Period-1 and Period-2, increased at a faster rate in mouse strains with the poorest quality of recovery sleep suggesting that the detailed dynamic changes in expression may underlie individual differences in sleep length and sleep quality. The changes in gene expression were also shown to occur in many different brain regions supporting the idea that sleep is a global brain function.
A handful of genes such as Period-1 and Period-2 have been shown previously to underlie our circadian rhythms (behavior and physiology that follow a 24 hour cycle). The major advantage of circadian rhythms is that they allow animals and plants to predict and prepare for periodic changes in the environment. The anticipatory increase in clock-gene expression may be, on a molecular level, an animal's preparation for activity. Variations in clock genes may underlie rhythmic traits influencing our preferred wake-up time, but the clock genes' role in direct sleep regulation, as shown in this study, may also influence sleep duration and human performance with differing amounts of sleep. The research could also help shed light on the biology of mood disorders, such as Seasonal Affective Disorder (SAD) or bipolar disorder, that appear linked to both sleep and circadian rhythms.
BioMed Central
A handful of genes such as Period-1 and Period-2 have been shown previously to underlie our circadian rhythms (behavior and physiology that follow a 24 hour cycle). The major advantage of circadian rhythms is that they allow animals and plants to predict and prepare for periodic changes in the environment. The anticipatory increase in clock-gene expression may be, on a molecular level, an animal's preparation for activity. Variations in clock genes may underlie rhythmic traits influencing our preferred wake-up time, but the clock genes' role in direct sleep regulation, as shown in this study, may also influence sleep duration and human performance with differing amounts of sleep. The research could also help shed light on the biology of mood disorders, such as Seasonal Affective Disorder (SAD) or bipolar disorder, that appear linked to both sleep and circadian rhythms.
BioMed Central
Gene Expression Current Events and Gene Expression News RSSTeam finds breast cancer gene linked to disease spread
A team of researchers at Princeton University and The Cancer Institute of New Jersey has identified a long-sought gene that is fatefully switched on in 30 to 40 percent of all breast cancer patients, spreading the disease, resisting traditional chemotherapies and eventually leading to death.
Collagen VI may help protect the brain against Alzheimer's disease
Scientists from the Gladstone Institute of Neurological Disease (GIND), UCSF, and Stanford have discovered that a certain type of collagen, collagen VI, protects brain cells against amyloid-beta (Aβ) proteins, which are widely thought to cause Alzheimer's disease (AD).
Testes stem cell can change into other body tissues, Stanford/UCSF study shows
Scientists at the Stanford University School of Medicine and at UC-San Francisco have succeeded in isolating stem cells from human testes.
Nutrigenomics -- developing personalized diets for disease prevention
The emerging field of nutrigenomics, which aims to identify the genetic factors that influence the body's response to diet and studies how the bioactive constituents of food affect gene expression.
Mutations common to cancer and developmental disorder examined in a novel disease model
New research sheds light on a common link between tumor formation and Costello Syndrome, an inherited developmental disorder in which patients have cardiac defects, mild mental retardation, and face-shape abnormalities.
The medium is the message: Manipulating salmonella in spaceflight curtails infectiousness
Infectious pathogens like Salmonella typhimurium employ a startling array of techniques to skillfully outwit the body's defense mechanisms and produce illness.
CSHL researchers map changing epigenetic modifications that enable transposons to run amok
Much like cancer cells, plant cells grown for a long time outside of their normal milieu, in culture dishes, have highly unstable genomes.
A special type of collagen may help protect the brain against Alzheimer's disease
Scientists from the Gladstone Institute of Neurological Disease (GIND), UCSF, and Stanford have discovered that a certain type of collagen, collagen VI, protects brain cells against amyloid-beta (Aβ ) proteins, which are widely thought to cause Alzheimer's disease (AD).
U of I study: Fructose metabolism more complicated than was thought
A new University of Illinois study suggests that we may pay a price for ingesting too much fructose. According to lead author Manabu Nakamura, dietary fructose affects a wide range of genes in the liver that had not previously been identified.
Interactive gene 'networks' may predict if leukemia is aggressive or slow-growing
Rather than testing for individual marker genes or proteins, researchers at the University of California, San Diego (UC San Diego) and the Moores UCSD Cancer Center have evidence that groups, or networks, of interactive genes may be more reliable in determining the likelihood that a form of leukemia is fast-moving or slow-growing.
More Gene Expression Current Events and Gene Expression News Articles
 | Cloning, Gene Expression, and Protein Purification: Experimental Procedures and Process Rationale by Charles Hardin, Jennifer Edwards, Andrew Riell, David Presutti, William Miller, Dominique Robertson On the forefront of modern scientific innovation, Cloning, Gene Expression and Protein Purification: Experimental Procedures and Process Rationale effectively doubles as a laboratory manual for students and a reference book for professional researchers. Designed for advanced undergraduate and beginning graduate students in molecular biology, this unique combination lecture/laboratory resource... |
 | Gene Expression Programming: Mathematical Modeling by an Artificial Intelligence (Studies in Computational Intelligence) by Cândida Ferreira Cândida Ferreira thoroughly describes the basic ideas of gene expression programming (GEP) and numerous modifications to this powerful new algorithm. This monograph provides all the implementation details of GEP so that anyone with elementary programming skills will be able to implement it themselves. The book also includes a self-contained introduction to this new exciting field of... |
 | Statistical Analysis of Gene Expression Microarray Data Although less than a decade old, the field of microarray data analysis is now thriving and growing at a remarkable pace. Biologists, geneticists, and computer scientists as well as statisticians all need an accessible, systematic treatment of the techniques used for analyzing the vast amounts of data generated by large-scale gene expression studies. And there is arguably no group better... |
 | Measuring Gene Expression (Basics (Routledge Paperback)) by Matthew Avison In the post-genomic age, much biomedical research looks at when, where, and at what level genes are expressed. Measuring Gene Expression: The Basics is an all-in-one introduction to the main methods of measuring gene expression, including RT-PCR, differential display, RNA interference, reporter genes, microarrays, and proteomics, as well as a section on RNA isolation and analysis. There will be... |
 | Microarray Gene Expression Data Analysis: A Beginner's Guide by Helen Causton, John Quackenbush, Alvis Brazma This guide covers aspects of designing microarray experiments and analysing the data generated, including information on some of the tools that are available from non-commercial sources. Concepts and principles underpinning gene expression analysis are emphasised and wherever possible, the mathematics has been simplified. The guide is intended for use by graduates and researchers in... |
 | The Psychobiology of Gene Expression by Ernest L. Rossi Outlines the relationship between genes and human experience. The understandings of gene expression emerging from the Human Genome Project are setting the stage for a profound expansion of our understanding of life. We are just now beginning to learn how the brain, body, and genes interact in everyday life. Here, Ernest Rossi introduces the new science of psychosocial genomics and explores how it... |
 | Regulation of Gene Expression by Gary H. Perdew, Jack P. Vanden Heuvel, Jeffrey M. Peters Regulation of Gene Expression: Molecular Mechanisms presents a comprehensive overview of methods and approaches for characterizing mechanisms of gene regulation. The text is appropriate both as a graduate textbook and a standard laboratory reference and provides the essential groundwork for an advanced understanding of the various mechanisms that may result in altered activity of a specific cell... |
| Gene Expression: Eucaryotic Chromosomes (Gene Expression) by Benjamin M. Lewin | |
 | Analysis of Microarray Gene Expression Data (Trends in Logic) by Mei-Ling Ting Lee After genomic sequencing, microarray technology has emerged as a widely used platform for genomic studies in the life sciences. Microarray technology provides a systematic way to survey DNA and RNA variation. With the abundance of data produced from microarray studies, however, the ultimate impact of the studies on biology will depend heavily on data mining and statistical analysis. The... |
 | Gene Expression Systems: Using Nature for the Art of Expression Gene Expression Systems: Using Nature for the Art of Expression offers detailed information on a wide variety of gene expression systems from an array of organisms. It describes several different types of expression systems including transient, stable, viral, and transgenic systems. Each chapter is written by a leader in the field. The book includes timelines and examples for each expression... |
| © 2009 BrightSurf.com |