How are DNA chromosomes and genes related? | Socratic
Your genes are part of what makes you the person you are. You are different from everyone alive now and everyone who has ever lived. DNA. But your genes. The DNA in each chromosome constitutes many genes. for forensic investigations and determining biological relationships – paternity etc. DNA is the chemical that chromosomes and genes are made of. People with sickle cell anemia have a single difference in the letters of.
A chromosome is simply the product of the DNA and the proteins that are attached to it. There are 23 pairs of the chromosomes in every human being. One set is inherited from the father, and one set is inherited from the mother. A DNA is a sort of a bio molecule. The entire DNA in cells can be found in individual pieces that are called chromosomes. The main difference between DNA and chromosome is regarding the role of genes. DNA stands for deoxyribonucleic acid. The DNA is basically made up of cytosine, adenine, thymine and guanine.
When you arrange these four bases to create a particular segment, it is called a gene. When these segments are coiled in a form that can be easily duplicated, they are known as chromosomes. Try to remember it like this- a gene is composed of tiny chromosomes, each of which determines a particular characteristic in a human. In the form of visions, thoughts, feelings, sensory information. Workers receive no orders to do anything, why will they do anything then? Workers have no idea what to do with the blueprint anyway.
They are factory workers, not put there to think, but to do the job when told to do so. So what are scientists working on that hard?
What is being accomplished? They are getting extremely good at re-drawing the blueprint! And that is a huge accomplishment!
DNA, genes and chromosomes — University of Leicester
But until they start working, taking consciousness into account, consciousness and mind-body connection, there will be no profound long-lasting results. And no amount of mice-based studies will change that. There is no placebo or nocebo effect in mice, is there? Because there is no consciousness involved.
And now to more earthy human stuff.
How can this whole blurb about genetics, DNA editing and the brain can help YOU to lose weight faster, or get your health back, or get fitter and look sexier?
You see, your DNA already has everything it needs to mold YOU into anything you want — fit, slim sexy full of energy and vitality, this awesome you. Imagine exactly what you want!
DNA, genes and chromosomes
Your brain might assign your lazy ass to do some more moving. And let the rest happen naturally.
It works like magic. Well, it is kind of magic, until you know how and why it works. I changed my hair color using the method. If things can be done easy, why the hell do them the hard way, making it so damn difficult and complex?
Why do scientists want to read billions of DNA bases to figure out how to edit the plan that needs no editing in the first place? When the results can be achieved so much easier? With the imagination stuff. Imagine, watching in VR, slim healthy sexy version of yourself living the life of your dreams, the movie with you as a lead? Each codon tells the cell which amino acid to add to the protein.
To make things easier, we'll split this up into three letter words: Each of these codons tells a cell which amino acid to add. For example, an ATG tells the cell to add a methionine or Met.
So, like most other proteins, hemoglobin starts out with Met. Next comes a valine Valthen a leucine Leuetc. When we keep adding amino acids we end up with the following: This goes on for another amino acids and you have hemoglobin.
Hemoglobin is a critical protein in our blood. It carries oxygen to and carbon dioxide away from cells. We need for the amino acids to be put together just right or we can end up with a disease. Like sickle cell anemia.
Sickle cell anemia is a disease that affects around 72, people in the U. Most of these folks have ancestors who came from Africa. Click here to find out why it is so common in people of African descent. People with sickle cell anemia have a single difference in the letters of their hemoglobin gene instructions. Their gene starts out with: