Introduction to Genetics
Information about genetics
Genes are the fundamental units of heredity. In every day terms, we often think of genes as being instructions for a particular trait such as hair or eye color. Genes are made of a chemical called deoxyribonucleic acid or DNA. Each gene has the chemical instructions for making a specific protein and each protein has a particular function in the body. For example, a gene may have the instructions to make a protein called an enzyme which is necessary for an important biochemical process in the body.
Individual genes are packaged into structures called chromosomes. Humans have a total of 46 chromosomes which are located in the center of every cell of the body. We receive 23 chromosomes (1/2 our genetic information) from our mothers and 23 chromosomes from our fathers. 22 of the 23 pairs of chromosomes are identical in men and women and are called autosomes. The last pair, the sex chromosomes, differ in men and women. Men have one X and one Y chromosome, and women have two X chromosomes.
Genetic disorders arise when one or both copies of a specific gene have undergone an alteration known as a mutation. When an alteration in just one copy of a gene pair causes a genetic disorder, the disorder is referred to as dominant. When alterations in both copies of a gene are required for the disorder to be present, the disorder is considered recessive. The following sections will discuss dominant and recessive inheritance in greater detail.
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Autosomal Dominant Inheritance
Autosomal Recessive Inheritance
X-Linked Inheritance
Ashkenazi
Bloom's Syndrome
Canavan Disease
Cystic Fibrosis
Factor XI Deficiency
Familial Dysautonomia (Riley-Day syndrome)
Fanconi Anemia
Gaucher Disease
Mucolipidosis IV
Niemann-Pick Disease
Non-Classical Adrenal Hyperplasia
Nonsyndromic Hearing Loss
Tay-Sachs Disease
Torsion Dystonia
Sephardic
Beta-Thalassemia
Familial Mediterranean Fever
Glucose-6-phosphate dehydrogenase deficiency
Type III Glycogen Storage disease
Autosomal Dominant Inheritance
Someone who possesses a gene for a dominant disorder usually manifests the disorder (is affected). Since each parent passes only one copy of every gene to a child, a child conceived by an affected individual has a 50% chance of inheriting the abnormal copy of the gene (and inheriting the disorder), and a 50% chance of inheriting the normal copy of the gene (and not inheriting the disorder). The same risk applies to each conception, regardless of the outcome of previous conceptions.
A dominant disorder sometimes appears in an individual whose parents do not have the disorder. This occurs when a new mutation has arisen in a gene. In other words, the alteration occurred for the first time in the sperm or egg that resulted in the conception of the child, rather than being inherited from one of the parents.
Dominant disorders can occur in multiple generations in a family and do not "skip" a generation. They affect men and women equally. There can be multiple affected family members in one generation. Except when there has been a new mutation, every affected individual has an affected parent.
Autosomal Recessive Inheritance
X-Linked Inheritance
Autosomal Recessive Inheritance
In many cases, when a single copy of a gene undergoes a mutation, there is no visible evidence of that alteration. In these instances, the disorder is considered recessive since the normal copy of the gene appears to dominate the altered one. However, when both copies of the gene are abnormal, the disorder becomes apparent. In order for an individual to have two abnormal copies of a gene, an abnormal copy of the gene must be inherited from both parents. It is expected that both parents of an affected child are entirely normal, even though they both carry the altered gene. Couples who have had a child affected with a recessive disorder (or who are both known to be carriers of a recessive gene by some type of testing) have a 25% chance that any future child will have the disorder, a 25% chance that the child will inherit both normal copies of the gene, and a 50% chance that the child will inherit a normal copy of the gene from one parent, and an abnormal copy of the gene from the other (will be a carrier).
There typically is not a "family history" in autosomal recessive disorders, since these conditions require both parents to be carriers. Carrier parents of an affected child are expected to be normal and healthy.
Autosomal Dominant Inheritance
X-Linked Inheritance
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