Table of Contents
Is DNA tightly wound?
Figure 1: Chromosomes are composed of DNA tightly-wound around histones. Chromosomal DNA is packaged inside microscopic nuclei with the help of histones.
When DNA is compacted What does it turn into?
As shown in the animation, a DNA molecule wraps around histone proteins to form tight loops called nucleosomes. These nucleosomes coil and stack together to form fibers called chromatin. Chromatin, in turn, loops and folds with the help of additional proteins to form chromosomes.
Can DNA be methylated?
DNA methylation is an epigenetic mechanism used by cells to control gene expression. DNA methylation refers to the addition of a methyl (CH3) group to the DNA strand itself, often to the fifth carbon atom of a cytosine ring.
How does DNA methylation happen?
DNA methylation is an epigenetic mechanism that occurs by the addition of a methyl (CH3) group to DNA, thereby often modifying the function of the genes and affecting gene expression. When a CpG island in the promoter region of a gene is methylated, expression of the gene is repressed (it is turned off).
Is chromosome tightly or loosely packed?
Figure 5: To better fit within the cell, long pieces of double-stranded DNA are tightly packed into structures called chromosomes.
Why are the DNA strands wound into the tight gene packages of chromosomes before mitosis begins?
DNA Packaging This tight packing makes DNA stronger and more resistant to breaking. Condensed chromosomes have strong regions called centromeres, which are like belts that can be pulled on to move chromosomes from place to place within a cell.
What causes DNA methylation?
In the course of life, aging processes, environmental influences and lifestyle factors such as smoking or diet induce biochemical alterations to the DNA. Frequently, these lead to DNA methylation, a process in which methyl groups are added to particular DNA segments, without changing the DNA sequence.
What does DNA methylation do?
DNA methylation regulates gene expression by recruiting proteins involved in gene repression or by inhibiting the binding of transcription factor(s) to DNA. During development, the pattern of DNA methylation in the genome changes as a result of a dynamic process involving both de novo DNA methylation and demethylation.
When was DNA methylation discovered?
The first suggestion that DNA methylation (or demethylation) might have an important biological role was made by Griffith and Mahler, who proposed in 1969 that it could provide a basis for long term memory in the brain.
Where does DNA methylation occur?
cytosine bases
Today, researchers know that DNA methylation occurs at the cytosine bases of eukaryotic DNA, which are converted to 5-methylcytosine by DNA methyltransferase (DNMT) enzymes.
Why does DNA need to be tightly packed?
Throughout most of the life of a cell, the DNA is only loosely wrapped around the histones and is not in the condensed chromosomal form. Condensing the DNA into tightly packed chromosomes makes the process of chromosome alignment and separation during mitosis more efficient.
What might be an advantage for DNA being tightly wound during mitosis?
DNA is temporarily packaged into a tightly wound and condensed chromosome prior to division (via supercoiling) In this condensed form, the DNA is able to be easily segregated however is inaccessible to transcriptional machinery.
What causes DNA to be wound more loosely around histones?
Access is easier when acetyl causes DNA to be wound more loosely around histones. • Methyl and acetyl are epigenetic tags- chemicals that act as “switches “ that determine gene expression without changing the underlying genetic code.
What makes DNA unreadable to gene reading machinery?
When DNA is wound tightly around histones, there tends to be a lot of methyl molecules bound to it. The methyl molecules cover the DNA, making it unreadable to gene reading machinery. Use tape to attach the methyl molecule cut outs to exposed areas of your DNA ribbon.
How do you wind a histone around DNA?
Trying not to fold or bend the DNA ribbon, wind it around the next histone. Again, fold the histone tails around the DNA ribbon and secure with a paperclip. Repeat until all of the DNA ribbon has been wound. The histones should begin to stack on top of one another as you wind.
How many times does DNA wrap around a histone?
Fold all of the histone tails over the DNA ribbon to help hold it in to place and secure with a paperclip. In a real cell, a length of DNA wraps around a histone roughly 1.7 times and histone tails wrap around the wound DNA similarly. DNA and Histone Model How do molecules control gene expression?