A few differences between the gene sequences make an individual identical. During cell division, the exact replica of original DNA is synthesized by replication. A chromosome is the most organized structure of DNA. In eukaryotes, DNA double-helix is condensed with histone proteins to form nucleosomes.
Nucleosome structure is further coiled into a fiber-like structure called chromatin fibers with a diameter of nm.
Chromatin is the normally existing form of DNA within the nucleus. They exhibit a thread-like structure and are less condensed compared to a chromosome. Chromatin is then further coiled to form chromosomes. The diameter of a chromosome is 30 nm.
Chromosomes can be seen during the nuclear division event. Eukaryotes consist of large, linear chromosomes whereas the prokaryotes consist of a single, circular chromosome condensed with histone-like proteins. Organization into chromosomes provides the structural integrity to DNA double-helix.
A chromosome consists of thousands of genes. The accessibility to the sequence of the DNA at chromosomal level regulates the gene expression. Humans have 46 individual chromosomes. There are 22 homologous pairs of autosomes and 2 sex chromosomes. A chromosome also contains an origin of replication, centromere, and telomeres. Paired nonsex chromosomes are, for practical purposes, identical in size, shape, and position and number of genes.
Because each member of a pair of nonsex chromosomes contains one of each corresponding gene, there is in a sense a backup for the genes on those chromosomes.
The pair of sex chromosomes determines whether a fetus becomes male or female. Males have one X and one Y chromosome. Females have two X chromosomes, one from the mother and one from the father. In certain ways, sex chromosomes function differently than nonsex chromosomes. The smaller Y chromosome carries the genes that determine male sex as well as a few other genes.
The X chromosome contains many more genes than the Y chromosome, many of which have functions besides determining sex and have no counterpart on the Y chromosome. In males, because there is no second X chromosome, these extra genes on the X chromosome are not paired and virtually all of them are expressed. Genes on the X chromosome are referred to as sex-linked, or X-linked, genes.
Normally, in the nonsex chromosomes, the genes on both of the pairs of chromosomes are capable of being fully expressed. However, in females, most of the genes on one of the two X chromosomes are turned off through a process called X inactivation except in the eggs in the ovaries.
X inactivation occurs early in the life of the fetus. In some cells, the X from the father becomes inactive, and in other cells, the X from the mother becomes inactive. Because of X inactivation, the absence of one X chromosome usually results in relatively minor abnormalities such as Turner syndrome Turner Syndrome Turner syndrome is a sex chromosome abnormality in which girls are born with one of their two X chromosomes partially or completely missing.
Turner syndrome is caused by the deletion of part Thus, missing an X chromosome is far less harmful than missing a nonsex chromosome see Overview of Sex Chromosome Abnormalities Overview of Sex Chromosome Abnormalities Sex chromosome abnormalities may be caused by full or partial deletions or duplications of sex chromosomes.
Chromosomes are structures within cells that contain DNA and many genes. A gene is If a female has a disorder in which she has more than two X chromosomes, the extra chromosomes tend to be inactive. Thus, having one or more extra X chromosomes causes far fewer developmental abnormalities than having one or more extra nonsex chromosomes. Genes contain Males who have more than one Y chromosome Home. There are several types of chromosome abnormalities Overview of Chromosome and Gene Disorders Chromosomes are structures within cells that contain a person's genes.
A gene is a segment of deoxyribonucleic acid DNA and contains the code for a specific protein that functions in one or A person may have an abnormal number of chromosomes or have abnormal areas on one or more chromosomes. Many such abnormalities can be diagnosed before birth see Testing for chromosome and gene abnormalities Testing for chromosome and gene abnormalities Chromosomes are structures within cells that contain a person's genes.
Abnormal numbers of nonsex chromosomes usually result in severe abnormalities. For example, receiving an extra nonsex chromosome may be fatal to a fetus or lead to abnormalities such as Down syndrome Down Syndrome Trisomy 21 Down syndrome is a chromosome disorder caused by an extra chromosome 21 that results in intellectual disability and physical abnormalities. Down syndrome is caused by an extra chromosome Absence of a nonsex chromosome is fatal to the fetus.
Large areas on a chromosome may be abnormal, usually because a whole section was left out called a deletion or mistakenly placed in another chromosome called translocation. For example, chronic myelogenous leukemia Chronic Myeloid Leukemia CML Chronic myeloid leukemia is a slowly progressing disease in which cells that normally would develop into neutrophils, basophils, eosinophils, and monocytes become cancerous see also Overview This abnormality can be inherited or be the result of a new mutation Mutation Genes are segments of deoxyribonucleic acid DNA that contain the code for a specific protein that functions in one or more types of cells in the body.
Mitochondria Cells Often thought of as the smallest unit of a living organism, a cell is made up of many even smaller parts, each with its own function. Unlike other structures inside cells, each mitochondrion contains its own circular chromosome. This chromosome contains DNA mitochondrial DNA that codes for some, but not all, of the proteins that make up that mitochondrion.
Mitochondria from the sperm usually do not become part of the developing embryo. A trait is any gene-determined characteristic. Many traits are determined by the function of more than one gene. For example, a person's height is likely to be determined by many genes, including those affecting growth, appetite, muscle mass, and activity level. However, some traits are determined by the function of a single gene.
Variation in some traits, such as eye color or blood type, is considered normal. Other variations, such as albinism Albinism Albinism is a rare hereditary disorder in which little or none of the skin pigment melanin is formed. The skin, hair, and eyes, or sometimes just the eyes, are affected. Typically, the hair This syndrome is caused However, not all such gene abnormalities are uniformly harmful.
For example, one copy of the sickle cell gene can provide protection against malaria, but two copies of the gene cause sickle cell anemia. A genetic disorder is a detrimental trait caused by an abnormal gene. The abnormal gene may be inherited or may arise spontaneously as a result of a new mutation.
Gene abnormalities are fairly common. Every humans carries an average of to abnormal genes different ones in different people. However, most of the time the corresponding gene on the other chromosome in the pair is normal and prevents any harmful effects. In the general population, the chance of a person having two copies of the same abnormal gene and hence a disorder is very small. However, in children who are offspring of close blood relatives, the chances are higher.
Chances are also higher among children of parents who have married within an isolated population, such as the Amish or Mennonites.
Merck and Co. This is because these are the stretches that determine which genes are going to be turned on and which are to be turned off. When a gene is turned on, it determines how the proteins are going to be formed in a cell. This in turn determines many aspects of a human being- starting from the color of his eye to the inheritance of a number of diseases and conditions. 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. These chromosomes are further divided into pieces of DNA.
Chromosomes are basically pieces of DNA. If we looked at a chromosome as an intertwined necklace, the beads on it would be the different DNA. The pattern that is formed by this intertwining of the strands is called a double helix pattern. All of these are basic building blocks of the body. DNA is the smallest part that, together with proteins, forms a chromosome. A chromosome is therefore, nothing but a chain of DNA that has been made compact enough to fit into a cell. Summary: 1. When proteins add to DNA, a chromosome is formed.
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