Allele: An allele is an alternate version of a . This is also known as a of a gene. They are caused by differences in the sequence of the at a specific position within a gene. Amino acid: Organic molecules that are the building blocks of proteins. There are 20 standard amino acids specified by the information () stored in the . Autosomal: Of or relating to the autosomes, which are the non-sex . In other words, any other chromosomes besides X and Y (in mammals). BCCarrier: An organism possessing one copy () of a . The term “carrier” is often used in the context of disease-associated or otherwise deleterious . Because carriers are heterozygous, they do not express the of the recessive allele. However, carriers can transmit the recessive allele to their offspring and can thus produce affected offspring if their mate also contributes a recessive allele. Chimerism: When an organism or tissue contains at least two different complete sets of that originated from more than one . In animals this can happen when two fertilized eggs fuse early during gestation or when twins exchange cells. Chromosome: Physical structure that stores the genetic information, composed of long strands of coiled around proteins. Co-dominance: Both at a locus are expressed equally in an organism. This can lead to the appearance of a “blended” phenotype, but differs from . Codon: A sequence of three consecutive in or that specifies the synthesis of a single (or acts as a start or stop signal) during the of mRNA to protein. There are 64 codons, of which 61 specify amino acids and 3 are stop signals. Complete penetrance: Traits with complete penetrance will be expressed in all individuals possessing the causal . Compound Heterozygote: A compound has two different at the same genetic (one on each ). Example: There are two variants associated with the tiger eye mutation in Puerto Rico Paso Fino horses, TE1 and TE2. The normal wild type variant is N. A horse can be N/N (no tiger eye), N/TE1 or N/TE2 (no tiger eye, heterozygous carriers), TE1/TE1 or TE2/TE2 (tiger eye, homozygous recessive), or TE1/TE2 (tiger eye, compound heterozygote).
DDe novo: De novo are genetic variations that arise in a reproductive cell (i.e., egg or sperm) or the fertilized egg so that they are present in an individual animal but absent from both parents’ DNA. Deletion: A type of in which part of the is lost; the loss can be as small as a single base pair or as much as an entire section of a . Dilution (coat color): Dilutions are caused when a of a pigmentation lightens the coat color of an animal. Dilution can dilute all (both eumelanin and phaeomelanin) or only one pigment type (eumelanin or phaeomelanin). The physical cause of the lightened coat color may vary, from reduction in the amount of pigment produced to inefficient transfer of the pigment from the to the hair follicle cells. Examples: In cats, the dilute allele d creates a dilution of all pigments (and thus all coat colors) by causing the clumping and uneven distribution of pigment granules in the hair shaft. In dogs, the Intensity dilution allele In causes an extreme dilution of phaeomelanin (red or yellow pigment), resulting in a cream to white coat in dogs. Eumelanin is not affected. In horses, the dun allele D affects both eumelanin (black) and phaeomelanin (red) pigment, diluting the coat but leaving the head, lower legs, mane and tail undiluted.
Diploid: Having two complete sets of ; one set is inherited from the mother, and one set from the father. DNA: Deoxyribonucleic Acid, a complex organic molecule that is capable of self-replication and that carries and stores genetic information. DNA is the material of heredity and is found in all known living organisms. DNA sequence: The ordered sequence of on a strand of . Example: TAAGTCTGACACAAT Dominant: A trait is dominant when only one copy of a is needed for an animal to the . Duplication: A type of in which a or part of the sequence of a gene is duplicated.
EEpistasis: A type of interaction between in which the at one masks the or of an of another gene/locus. Exon: A section of in a that codes for the of a protein product. After intervening sequences have been removed, exons are spliced together to form mature messenger . This messenger RNA (or mRNA) is then into a protein. Expression (of a gene): The outcome produced by and of a ; the way in which a gene manifests as a phenotype.
FFixed: An is described as being fixed in a population when it is the only allele for a given present in the population. In other words, all individuals in the population will be for that variant. Example: One of the defining traits of the Russian Blue cat breed is its gray (“blue”) coat, which is a recessive trait. All Russian Blue cats genotype as d/d, and the dominant D allele is absent from the population. Therefore this breed is fixed for dilute.
Frameshift mutation: The insertion or deletion of base pairs in a , in which the number of added or deleted base pairs is not a multiple of three, thus shifting the triplet reading frame of the gene product (protein). This results in the synthesis of a protein with different from those normally specified by the .
GGene: A occupying a particular fixed location () on a . For those genes that code for proteins, the sequence of DNA comprising a gene directs the synthesis of the protein product. Genes are the basic unit of heredity. Genome: An organism's complete found in one set of its . This includes the DNA that makes up the 20,000+ of mammals as well as all non-coding regions of DNA. Genotype: An organism’s set of ; the genetic makeup of that organism. In practice and in the context of genetic testing, the term “genotype” is used to reference a particular gene of interest and to specify for the individual being tested what are present at that . Germ line: Cells that pass on genetic information from one generation to the next. Specifically, egg and sperm cells are called germ cells while all other cells of the body are called somatic cells.
HHaplotype: A haplotype is defined as a combination of being inherited together; a set of found on the same . Heteroplasmy: Heteroplasmy occurs when there is more than one type of (mtDNA) in an individual. Heterozygous: Possessing two different at a particular . Homozygous: Possessing identical at a particular . In organisms, which have two copies of each , this means possessing two copies of the same .
IIncomplete Dominance: A trait is incompletely dominant when the is dependent on how many copies of the is present. In other words the phenotype is different if there are zero, one, or two copies of the allele. Typically the have an intermediate phenotype between the two conditions. Incomplete penetrance: Conditions or traits with incomplete penetrance will be in only some of the individuals who possess the trait-associated ; some individuals with the allele may never express the trait. Insertion: The addition of base pairs to an existing . Insertions may be as small as a single base pair or as large as an entire section of that encompasses multiple . Intron: A section of in a that does not code for protein. Introns are intervening sequences between the coding regions of genes, which are called . The non-coding introns are spliced out of pre-messenger , leaving only coding exons in the resulting messenger RNA. Each gene may contain multiple introns. Intronic mutation: A that occurs in the , or portion of a gene that does not code for a protein.
JKLLethal mutation (lethal allele): A lethal causes premature death of an organism. Lethal mutations may lead to mortality at any stage of an organism's development, including after birth, but often act in the early stages of embryonic or fetal development. Locus: The location of a particular on a . Plural is loci.
MSingle , autosomal , and inheritance patterns follow Mendel’s laws and are said to be Mendelian. Non-Mendelian inheritance patterns can be caused by and other complex genetic phenomena including multiple genes and environmental components. Melanocyte: A specialized cell that produces melanin. Found in the skin, some structures of the eye, the inner ear, and several other tissues. Melanoma: A type of cancer, typically in the skin, that arises from changes in an individual’s . Microsatellite: Regions of repeated found abundantly throughout the genome, often in non-coding areas, and which are highly variable and prone to (see ). The various forms of a given microsatellite (identified by differences in the number of repeats) are referred to as , and these are inherited in a fashion. Genetic variation at the microsatellite level can be used to identify individuals (see ). Microsatellite marker: Specific sequences () found at a particular location on a that are often used in various kinds of genetic analyses. Microsatellite markers can be used to identify individuals and have applications in forensics, parentage analysis, and studies of populations. Missense mutation: A specific type of change in the sequence of an organism’s in which a single change in the DNA causes a change in the building block () of the gene product (protein). Mitochondria: Mitochondria (singular: mitochondrion) are membrane bound organelles, or specialized parts of cells. They play a key role in generating cellular energy known as adenosine triphosphate (ATP). Mitochondria possess their own independent genome separate from the found in the nucleus (see: ). Mitochondrial DNA: found specifically in the . Mitochondrial DNA is a single, circular . In mammals, this DNA is transmitted primarily from mother to offspring via maternal egg cells. Mitotype: ; a set of () that are inherited together on the . Mode of inheritance: The manner in which a trait is inherited across generations; the pattern of transmission of a genetic trait. Modifier: A that affects (or modifies) the outcome, actions, or product of another gene. Mutation: A change in the sequence of . A mutation can be small (e.g. single base pair) or large (e.g. segment of a encompassing multiple ). Mutations create , which are alternate versions of a gene.
NNonsense mutation: A specific type of change in the sequence of an organism’s in which a single change in the DNA causes a premature stop or truncation of the gene product (protein). Nucleotide: An organic molecule that is the basic structural unit of (and ). Nucleotides consist of a nitrogenous base, a five-carbon sugar molecule, and a phosphate group. In DNA, the nitrogenous bases are Adenine (A), Guanine (G), Thymine (T), and Cytosine (C). In RNA, Uracil (U) replaces Thymine (T).
OPPenetrance: The proportion of individuals in a population that have a particular and the trait caused by that variant. In other words, when a variant causes a trait but not everyone with the variant has the phenotype, the allele is said to be . Phenotype: The expressed characteristic or trait of an organism; this can include an organism’s appearance, physical features, biochemistry, physiology, and behaviors. An organism’s phenotype can result from the genetic makeup () or can result from the interaction of and the environment. Pigment: A compound that selectively absorbs certain wavelengths of light while reflecting others, which creates the appearance of a particular color. In mammals, the pigment eumelanin is responsible for shades of black and brown coloration, and the pigment phaeomelanin is responsible for shades of yellow and red. Pleiotropy: Occurs when a single affects multiple characteristics. Polymorphism: The occurrence of two or more different at a particular .
QRRecessive: A trait is recessive when two copies of a are needed to produce () the . RNA: Ribonucleic Acid, a single-stranded organic molecule composed of . Like , RNA is a nucleic acid made up of a chain of nucleotides; unlike DNA, it is single-stranded instead of double helix, has a ribose sugar backbone instead of a deoxyribose sugar backbone, and contains the nitrogenous base uracil (U) in place of thymine (T). One of the main roles of RNA in the cell is to be the messenger or intermediate of genetic information. DNA is used as the template to make RNA in a process known as , and then RNA is used as a template to make protein products by the process of .
SSelf-color (coat coloration): Term used in cat and dog breeding. The individual hairs of an animal described as “self-colored” are unbanded along the hair shaft, resulting in the appearance of a solid, uniform color from the tip of the hair to the base of the hair. (In contrast, mammals with agouti banded hair have alternating areas of black and red pigments along individual hair shafts, creating a banding pattern.) Sex-linked: A that is sex-linked resides on one of the sex-determining . In mammals, these are the X or Y chromosomes. Sex-linked traits follow a different inheritance pattern than non-sex-linked traits (autosomal traits) because of the way sex chromsomes are inhertied. In other words males have one X and one Y and females have two X chromosomes. Many sex-linked traits in mammals are recessive, meaning the causal variant is located on the X chromosome and females need two copies to have the trait where males will only need one. Short tandem repeats (STR): A repetitive pattern found in in which a short sequence of nucleotide base pairs, usually 1-6 base pairs, is tandemly repeated as a unit (i.e. one repeat right after the next). STRs occur most frequently in noncoding regions of the genome. Single nucleotide polymorphism (SNP): A type of genetic variation in which a single base is substituted at a specific location. For example in the stretch of sequence TAAGTCTGACACAAT if the first G was substituted for a T then the sequence would become TAATTCTGACACAAT. That SNP would be denoted as a G>T variant. Splice site: Places in the DNA that have specific information on how a gene is put together. During the process of , is copied into . There are regions of the DNA that code for proteins () and non-coding regions that are intervening (). At the junction of intron-exon boundaries, there is specific sequence information that tells the cellular machinery to remove (splice) the introns out of the RNA and bring the exons together. Splice sites, then, are where splicing occurs at these intron-exon boundaries. During splicing, the non-coding introns are removed from precursor messenger RNA (pre-mRNA), which then produces mature messenger RNA (mature mRNA) that contains only coding exons. Changes in the genetic sequence of a splice site can affect splicing and subsequently produce an altered gene product. Splice variant: A that disrupts the normal splicing, or removal of an , that occurs when a is .
TTranscription: The molecular process by which a DNA sequence is transcribed into (usually messenger RNA, mRNA). Translation: The molecular process by which transcribed directs the synthesis of a protein product by encoding a sequence of .
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