Epigenetics In Our Life

Epigenetics is a study that entails the heritage changes in gene expressions, which includes both the active and the inactive genes; the changes do not involve changes to the underlying DNA sequence. Meaning, it is a change in phenotypes without the differences in genotypes and consequently, affect how the cells read the genes. The epigenetic modification is a natural occurrence but apparently can be influenced by other several factors, including diseases, the environment, and age. Epigenetic changes can result in adverse damages and can end up causing infections such as cancer (Barton et al, 2016). This paper looks at what epigenetics entails, the hidden life of our genes, how food affects genes and how one can elongate life by improving health status.

Epigenetics is the future of science. It has evolved from being a science that very few believed in, to one that will shape medicine as it is known. As the Human Genome Project began, the goal was to determine which genes controlled what phenotypes in a human. After all the genes were identified and mapped, the expression of the genes that the scientists had just discovered was also beginning to be analyzed (EPIGENETICS). Although every gene had been identified and associated with a function, there were genes that if not expressed or not turned on, would create a different scenario. That is, the idea that the genotype of an individual would determine their phenotype was reinforced. Epigenetics however is the study of the switching on or off of the genes responsible for a particular action (Feinberg). For example, all of the organs of a single person have the exact same DNA as the others, yet a lung looks drastically different from a kidney. This is due to the expression of the genes responsible for creating a specific organ. If scientists are able to control the switching on and off of these genes, then many extraordinary possibilities exist.

Burying the dogma of the genomics fixity, epigenetics demonstrates that our lifestyle changes our genes and we pass these mutations on. This discovery opens up new prospects of cure for many diseases. At the level of our genome, there are two kinds of genes: exons which are genes that are expressed and induce the production of certain proteins, and introns which are genes that are eliminated in the transcription of the RNA, and which therefore are not expressed. Environmental conditions could change that by opening introns or closing exons with all possible intermediate situations between these two extremes, from this perspective, epigenetics would correspond to an open or closed switch, to varying degrees. These different positions of switches then open the door to many combinations of genes. This seems to go against a current scientific dogma that considers the genome of a person is inherited from the parents and then remains fixed and determined for his entire life. Moreover, according to the evolutionary theory of Darwin, if mutations occur in a species facing a changing environment, these changes occur only over extremely long periods of time that often number in the thousands or even millions years. Epigenetics shows that on the contrary, these changes are a natural way and very common in nature. With Epigenetics: we can change our

Researchers first thought the genes you receive from your parents are set in stone since they are made of a genetic code set in our DNA sequence;however, they are discovering that there is a second layer of structure that combines with DNA to decide whether or not a gene is active or not, called the epigenome. The epigenome consists of the DNA, histones, a protein DNA is wrapped around, and chemical tags. The epigenome alters the genetic code by directing signals. The signals come from the environment, which are reacted upon by epigenetic tags to turn a gene either on or off without affecting the DNA sequence. Certain things from our environment that send signals to epigenetic tags to change our genes in the epigenome includes the following:

Epigenetics can be defined as a way of turning on and off certain genes in your body, which as evidence has shown, we have a lot more control of than we thought. The video on epigenetics was so great, I did not have a clear idea of what epigenetics was. Watching the video really enlightens how far we have come in research of the human body. I find the advancements that have been made using epigenetics with cancer to be one of the best sections of the thirteen minute video. Just knowing the fact that half of the patients that complied with the research whom had cancer to begin with are now in remission is a great accomplishment. I also found the fact that we have more control over our epigenes, we are to modify our own genes by just following

Define Epigenetics  Epigenetics is the study of chemical reactions and factors that influence the reactions controlling growth and development of an organism to be activated or deactivated in specific locations of genome at specific times.

Before conducting research and watching numerous informational videos on epigenetics, I would have never believed that when my grandmother was my age, she made dietary decisions that have affected me. Technically speaking, epigenetics simply means above genetics. In other words, epigenetics is the traits that you and I inherit, but do not necessarily necessitate the sequence of genes. I took me a while to actually grasp the concept until I thought of it from a musical perspective. Imagine our DNA helix strands as a musical score. There are different music notes as there are genes. If someone were to play Beethoven’s Symphony Number 5 correctly, it would sound the same every time. Basically, if one note is changed, the whole musical piece

The PBS video called “Epigenetics” brought to light some very interesting views. Through rats scientist have been able to see the works of epigenetics and believe that the finding have led to the idea that the change in genetics has the same effect on humans. The most interesting part of the video was that younger pairs of twins have very similar genes, but the older pairs of twin have more epigenetic difference in their genes. This validates the idea that the epigenetic difference in old twins is caused by environmental factors such as lifestyle choices. The idea also alludes to the idea that our parents and grandparents healthy and epigenetics may affect my heath and my children’s health. This leads to the inclination that my child’s health

What is epigenetics? Epigenetics to me is the alteration to our genome that we are able to change in not only ourselves but in our children and future generations as well all based on lifestyle habits we live today. After first watching the PBS video on epigenetics, I was astonished on how our ways of life have such a profound effect upon not only our genes but our future generations of children as well. In the video research was conducted on over forty identical twins ages ranging from three to seventy-four, this was to compare the lifestyle habits such as smoking, exercise, and different diets have on an individual. I found it fascinating that when there was comparing the genomes of the elderly Spanish twins compared to the three-year-olds; we were able to see how much of a difference the Spanish twins genome

For years, scientists believed DNA, deoxyribonucleic acid, was the end-all-be-all: a mould for our cells to be created from. Which does not sound far-fetched since DNA contains all of the information needed for replication, differentiation, growth, and development, in addition to the countless cellular fates, as described in Waddington’s landscape. Instead, DNA is a guide for our cells, and Epigenetics is the tool that coerces them into their final cellular form. The Epigenetics Revolution: How Modern Biology Is Rewriting Our Understanding of Genetics, Disease, and Inheritance written by Nessa Carey, outlines the process of DNA versus Epigenetics, and the developments they have had within the scientific field. This paper will examine the fundamental distinction constructed by Nessa Carey between DNA as a script versus a template. This analogy of DNA as a script.

Most epigenetic changes that occur in sperm and egg cells get erased when the two combine to form a fertilized egg in a process called "reprogramming." This reprogramming allows the cells of the fetus to "start from scratch" and make their own epigenetic changes. However, scientists think that some of the epigenetic changes in parents ' sperm and egg cells may avoid the reprogramming process and make it through to the next generation. If this is true, things like the food a person eats before they conceive could affect their future child. Scientists now think epigenetics can play a role in the development of some cancers. For instance, an epigenetic change that silences a tumor suppressor gene, such as a gene that keeps the growth of the cell in check, could lead to uncontrolled cellular growth. Another example might be an epigenetic change that "turns off" genes that help repair damaged DNA, leading to an increase in DNA damage, which in turn, increases cancer risk. (US, National Institutes of Health)

Every human being possesses their own unique genetic code, called DNA. A person’s individual DNA structure is something that they are born with and will remain constant and unchanging throughout their lifetime. DNA is passed down from each of our parents, and is combined to form our own personal, specific inherited genetic information. This makes it seem like that every characteristic (physical and mental) a person possesses is in direct result of inheritance, unchangeable and unyielding. This is not the case, however. Epigenetics are different factors/circumstances/experiences that play a major role in influencing a person’s gene expression without actually changing their DNA/genetic code. A gene that exists in a person’s genotype is

Epigenetics studies the evolvement of an organism while certain chemical reactions have place activating and deactivating parts of the genome at different times and in particular locations. It also studies the agents than influence those chemical reactions. It affects how genes are read by the cells. It deals with the idea that environmental factors could have a key role on the health not only of the people in contact with them, but to the health of their descendants. It’s not only related to passing negative health traits but positive healthy factors (Rettner, 2013).

In one very scientific example of epigenetics in work, scientists were looking at mice and a fear response. In the initial set of male mice, they exposed the mice to a particular smell and then immediately after

Phenotypes depend on the genes that code for them, but the expression of genes can depend on multiple factors including the environment. Epigenetics is a field in science that focuses on how the environmental plays a role in in the development of certain phenotypes by affecting gene expression. Epigenetics influences all species and works through DNA methylation and can be influenced by multiple external factor such as growth hormones.