[Ger. Gen, ult. fr. Gr. genos, kind, race, descent]
The basic unit of heredity, made of DNA, the code for a specific protein. Each gene occupies a certain location on a chromosome. Genes are self-replicating sequences of DNA nucleotides, subject to mutations (random structural changes). Hereditary traits are controlled by alleles (pairs of genes in the same position on a pair of chromosomes). These alleles may be either dominant or recessive. When both pairs of an allele are either dominant or recessive, the individual is said to be homozygous for the traits coded by the gene. If the alleles differ (one dominant and one recessive), the individual is heterozygous.
SEE: chromosome; SEE: DNA; SEE: RNA
A dominant gene found on any chromosome other than the X or Y chromosome.
AUTOSOMAL DOMINANT INHERITANCE
A recessive gene found on any chromosome other than the X or Y chromosome.
AUTOSOMAL RECESSIVE INHERITANCE
A breast cancer gene found in a small percentage of patients with this malignancy, and carried by some individuals who will develop breast cancer later in life.
BRCA1 Gene Mutation: Patient care focuses on determining the family history of the patient and referral to a genetic counselor with expertise in this mutation when appropriate.
A breast cancer gene found in a small number of patients with breast and ovarian cancers, and carried by some individuals who will develop breast cancer later in life.
Nonallelic, independently located genes, neither of which will be expressed in the absence of the other.
The gene that codes for a protein that regulates the movement of ions, esp. chloride, across cell membranes.
One of the genes composing the HLA complex that determines the histocompatibility antigenic markers on all nucleated cells. These genes create the antigens by which the immune system recognizes self and determines the nonself nature of pathogens and other foreign antigens. These antigens are crucial determinants of the success or failure of organ transplantation.
SEE: histocompatibility locus antigen
A gene located in the nonhomologous portion of the Y chromosome.
Any transcription factor that regulates the growth, differentiation, replication, and movement of cells in the body. These genes influence both normal and abnormal embryological development and the development or suppression of malignant tumors.
A gene expressed in nearly every cell and every tissue of an organism, i.e., one that encodes a protein fundamental to cellular activity throughout the organism.
A gene that prevents the expression of another gene.
A genetic variant that increases the likelihood of having a favorable response to antiviral treatment for chronic hepatitis C, genotype 1 infection (traditionally the most resistant hepatitis C genotype).
A gene that creates a condition incompatible with life and usually results in the death of the fetus.
A gene that influences or alters the expression of other genes.
An altered gene that permanently functions differently than it did before its alteration.
A gene that controls the expression of other genes.
A gene thought to be important in controlling the cell cycle, DNA repair and synthesis, and programmed cell death (apoptosis). Mutations of p53 have occurred in almost half of all types of cancer, arising from a variety of tissues. Mutant types may promote cancer. The normal, wild-type gene produces a protein important in tumor suppression.
A gene that has multiple effects.
SEE: RNA interference.
Any of the rare traits responsible for early-onset Alzheimer disease.
Tumor suppressor gene encoding for the retinoblastoma (RB) protein, mutations of which are associated with various human tumors, including retinoblastoma, osteosarcoma, some leukemias, and some adenocarcinomas.
SEE: tumor suppressor gene; SEE: retinoblastoma
A trait that is not expressed unless it is present in the genes received from both parents. A recessive trait may be apparent in the phenotype only if both alleles are recessive.
SYN: SEE: recessive characteristic
A gene that can control some specific activity of another gene.
A gene that determines the structure of polypeptide chains by controlling the sequence of amino acids.
A gene that increases a person's likelihood of contracting a heritable illness.
A gene that suppresses the growth of malignant cells.
A gene on the X chromosome for which there is no corresponding gene on the Y chromosome. X-linked genes, e.g., the gene for red-green color blindness, are expressed, but in males even these genes are recessive because there is no corresponding gene to dominate them.
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