Glossary of genetics

This glossary of genetics is a list of definitions of terms and concepts commonly used in the study of genetics and related disciplines in biology.^[1] It is intended as introductory material for novices; for more specific and technical detail, see the article corresponding to each term.

0–9

5' cap

A

activator: A type of transcription factor that increases the transcription of a gene or set of genes. Most activators work by binding to a specific sequence located within or near an enhancer or promoter and facilitating the binding of RNA polymerase and other transcription machinery in the same region. See also coactivator.
adenine: One of the four main nucleobases present in DNA and RNA. Adenine forms a base pair with thymine in DNA and with uracil in RNA.
affected relative pair: Any pair of organisms which are related genetically and both affected by the same trait. For example, two cousins who both have blue eyes are an affected relative pair since they are both affected by the allele that codes for blue eyes.
allele: One of multiple alternative versions of an individual gene, each of which is a viable DNA sequence occupying a given position, or locus, on a chromosome. For example, in humans, one allele of the eye-color gene produces blue eyes and another allele of the eye-color gene produces brown eyes.
allosome: Any chromosome that differs from an ordinary autosome in size, form, or behavior and which is responsible for determining the sex of an organism. In humans, the X chromosome and the Y chromosome are sex chromosomes.
alternative splicing
amino acid: An organic compound containing amine and carboxyl functional groups, as well as a side chain specific to each individual amino acid. Out of nearly 500 known amino acids, a set of 20 are coded for by the standard genetic code and incorporated in sequence as the building blocks of polypeptides and hence of proteins. The specific sequence of amino acids in the polypeptide chains that form a protein are ultimately responsible for determining the protein's structure and function.
anaphase: The stage of mitosis that occurs after metaphase and before telophase when the replicated chromosomes are segregated and each of the sister chromatids are moved to opposite sides of the cell.
aneuploidy
anticodon
antiparallel
autosome: Any chromosome that is not an allosome and is hence not involved in the determination of the sex of an organism. Unlike the sex chromosomes, the autosomes in a diploid cell exist in pairs, with the members of each pair having the same structure, morphology, and genetic loci.

B

bacterial artificial chromosome (BAC)
base pair (bp): A pair of two nucleobases on complementary DNA or RNA strands which are bound to each other by hydrogen bonds. The ability of consecutive base pairs to stack one upon another contributes to the long-chain double helix structures observed in both double-stranded DNA and double-stranded RNA molecules.

C

canalisation
candidate gene
carrier
CCAAT box
centimorgan (cM): A unit for measuring genetic linkage defined as the distance between chromosomal loci for which the expected average number of intervening chromosomal crossovers in a single generation is 0.01. Though it is not an actual measure of physical distance, it is used to infer the distance between two loci based on the apparent likelihood of a crossover occurring between them.
centromere: The part of a chromosome that links a pair of sister chromatids. During mitosis, spindle fibers attach to the centromere via kinetochores.
chromatid: One copy of a newly copied chromosome, which is joined to the original chromosome by a centromere.
chromatin
chromosomal crossover
chromosomal duplication
chromosome: A DNA molecule containing part of all of the genetic material of an organism. Chromosomes may be considered a sort of molecular "package" for carrying DNA within the nucleus of cells and, in most eukaryotes, are composed of long strands of DNA coiled with packaging proteins which bind to and condense the strands to prevent them from becoming an unmanageable tangle. Chromosomes are most easily distinguished and studied in their completely condensed forms, which only occur during cell division. Some simple organisms have only one chromosome made of circular DNA, while most eukaryotes have multiple chromosomes made of linear DNA.
cis-regulatory element
classical genetics: The branch of genetics based solely on observation of the visible results of reproductive acts, as opposed to that made possible by the modern techniques and methodologies of molecular biology. Contrast molecular genetics.
cloning
coactivator
codominance
codon: A series of three nucleotides in a coding region of a nucleid acid sequence, which codes for a particular amino acid or stop signal during protein synthesis. DNA and RNA molecules are each written in a language using four "letters" (four different nucleobases), but the language used to construct proteins includes 20 "letters" (20 different amino acids). Codons provide the key that allows these two languages to be translated into each other. In general, each codon corresponds to a single amino acid (or stop signal), and the full set of codons is called the genetic code.
codon usage bias
comparative genomic hybridization (CGH)
complementarity
complementary DNA (cDNA)
consensus sequence: A calculated order of the most frequent residues (of either nucleotides or amino acids) found at each position in a common sequence alignment. The order of a consensus sequence is obtained by comparing multiple closely related sequence alignments.
conservation genetics
conserved sequence
contig
copy number variation (CNV): A phenomenon in which sections of a genome are repeated and the number of repeats varies between individuals in the population, usually as a result of duplication or deletion events that affect entire genes or sections of chromosomes. Copy number variations play an important role in generating genetic variation within a population.
CRISPR
cytogenetics: The branch of genetics that studies how chromosomes influence and relate to cell behavior and function, particularly during mitosis and meiosis.
cytosine: One of the four main nucleobases present in DNA and RNA. Cytosine forms a base pair with guanine.

D

degeneracy: The redundancy of the genetic code, exhibited as the multiplicity of different codons that can specify the same amino acid. For example, in the standard genetic code, the amino acid serine is specified by six unique codons (UCA, UCG, UCC, UCU, AGU, and AGC). Codon degeneracy accounts for the existence of synonymous mutations.
deletion: A type of mutation in which one or more bases are removed from a nucleic acid sequence.
deoxyribonucleic acid (DNA): A polymeric nucleic acid molecule composed of a series of deoxyribonucleotides which incorporate a set of four nucleobases: adenine (A), guanine (G), cytosine (C), and thymine (T). DNA is most often found in the form of a "double helix", which consists of two paired complementary DNA molecules and resembles a ladder that has been twisted. The "rungs" of the ladder are made of pairs of nucleobases.
deoxyribose
diploid: (of a cell or organism) Having two homologous copies of each chromosome. Contrast haploid and polyploid.
DNA condensation
DNA fingerprinting
DNA polymerase
DNA repair: The collection of processes by which a cell identifies and corrects structural damage or mutations in the DNA molecules that encode its genome. The ability of a cell to repair its DNA is vital to the integrity of the genome and the normal functionality of the organism.
DNA replication: The process by which a DNA molecule copies itself, producing two identical copies of one original DNA molecule.
DNA sequencing
dominance
dosage compensation
double helix
double-stranded DNA (dsDNA)
duplication

E

ecological genetics: The study of genetics as it pertains to the ecology and fitness of natural populations of living organisms.
electrophoresis
endoplasmic reticulum (ER)
enhancer
epigenetics
episome
epistasis
evolution: The change in the heritable characteristics of biological populations over successive generations. In the most traditional sense, it occurs by changes in the frequencies of alleles in a population's gene pool.
exome
exon: Any part of a gene that encodes a part of the final mature mRNA produced by that gene after introns have been removed by alternative splicing. The term refers to both the sequence as it exists within a DNA molecule and to the corresponding sequence in RNA transcripts.
extrachromosomal DNA

F

fluorescence in situ hybridization (FISH)
frameshift mutation: A type of mutation caused by the insertion or deletion of a number of nucleotides that is not divisible by three in a nucleic acid sequence. Because of the triplet nature by which nucleotides code for amino acids, a mutation of this sort causes a shift in the reading frame of the nucleotide sequence, resulting in the sequence of codons downstream of the mutation site being completely different from the original.

G

G banding: A technique used in cytogenetics to produce a visible karyotype by staining the condensed chromosomes with Giemsa stain. The staining produces consistent and identifiable patterns of dark and light "bands" in regions of chromatin, which allows specific chromosomes to be easily distinguished.
gamete
gene: Any segment or set of segments of a nucleic acid molecule that contains the information necessary to produce a functional RNA transcript in a controlled manner. In living organisms, genes are often considered the fundamental units of heredity and are typically encoded in DNA. A particular gene can have multiple different versions, or alleles, and a single gene can result in a gene product that influences many different phenotypes.
gene dosage
gene drive
gene duplication: A type of mutation defined as any duplication of a region of DNA that contains a gene. Compare chromosomal duplication.
gene expression: The process by which the information encoded in a gene is converted into a form useful for the cell. The first step is transcription, which produces a messenger RNA molecule complementary to the DNA molecule in which the gene is encoded. For protein-coding genes, the second step is translation, in which the messenger RNA is read by the ribosome to produce a protein.
gene mapping
gene pool: The sum of all of the various alleles shared by the members of a single population.
gene product: Any of the biochemical material resulting from the expression of a gene, most often interpreted as the functional mRNA transcript produced by transcription of the gene or the fully constructed protein produced by translation of the transcript. A measurement of the quantity of a given gene product that is detectable in a cell or tissue is sometimes used to infer how active the corresponding gene is.
gene regulation: The broad range of mechanisms used by cells to increase or decrease the production or expression of specific gene products, such as RNA or proteins. Gene regulation increases an organism's versatility and adaptability by allowing its cells to express different gene products when required by changes in its environment. In multicellular organisms, the regulation of gene expression also drives cellular differentiation and morphogenesis in the embryo, enabling the creation of a diverse array of cell types from the same genome.
gene silencing
gene therapy
gene trapping
genealogy
genetic association
genetic code: A set of rules by which information encoded within nucleic acids is translated into proteins by living cells. These rules define how sequences of nucleotide triplets called codons specify which amino acid will be added next during protein synthesis. The vast majority of living organisms use the same genetic code (sometimes referred to as the "standard" genetic code) but variant codes do exist.
genetic counseling
genetic disorder
genetic distance: A measure of the genetic divergence between species or populations within a species, used especially in phylogenetics to express either the time elapsed since the existence of a common ancestor or the degree of differentiation in the DNA sequences comprising the genomes of each population.
genetic diversity: The total number of genetic traits or characteristics in the genetic make-up of a population, species, or other group of organisms. It is often used as a measure of the adaptability of a group to changing environments. Genetic diversity is similar to, though distinct from, genetic variability.
genetic drift
genetic engineering
genetic epidemiology
genetic marker: A specific, easily identifiable, and usually highly polymorphic gene or other DNA sequence with a known location on a chromosome that can be used to identify the individual or species possessing it.
genetic recombination
genetic testing
genetic variability: The formation or the presence of individuals differing in genotype within a population or other group of organisms, as opposed to individuals with environmentally induced differences, which cause only temporary, non-heritable changes in phenotype. Barring other limitations, a population with high genetic variability has a greater potential for successful adaptation to changing environmental conditions than a population with low genetic variability. Genetic variability is similar to, though distinct from, genetic diversity.
genetic variation: The genetic differences both within and between populations, species, or other groups of organisms. It is often visualized as the variety of different alleles in the gene pools of different populations.
genetically modified organism (GMO)
genetics: The field of biology that studies genes, genetic variation, and heredity in living organisms.
genome: The entire complement of genetic material contained within the chromosomes of an organism, virus, or organelle.
genomic DNA (gDNA): The DNA contained in chromosomes, as opposed to the extrachromosomal DNA contained in separate structures such as plasmids or organelles such as mitochondria or chloroplasts.
genomic imprinting
genomics: An interdisciplinary field that studies the structure, function, evolution, mapping, and editing of entire genomes, as opposed to individual genes.
genotype: The entire complement of alleles present in a particular individual's genome, which gives rise to the individual's phenotype.
genotyping
germ cell: Any biological cell that gives rise to the gametes of an organism that reproduces sexually. Germ cells are the vessels for the genetic material which will ultimately be passed on to the organism's descendants and are usually distinguished from somatic cells, which are entirely separate from the germ line.
germ line: 1. In multicellular organisms, the population of cells which are capable of passing on their genetic material to the organism's progeny and are therefore (at least theoretically) distinct from somatic cells. The cells of the germ line are called germ cells.; 2. The lineage of germ cells, spanning many generations, that contains the genetic material which has been passed on to an individual from its ancestors.
guanine: One of the four main nucleobases present in DNA and RNA. Guanine forms a base pair with cytosine.
guanine-cytosine content

H

haploid: (of a cell or organism) Having one copy of each chromosome, with each copy not being part of a pair. Contrast diploid and polyploid.
haplodiploid
haplotype
haplogroup
HapMap
hemizygous
heredity: The passing on of phenotypic traits from parents to their offspring, either through sexual or asexual reproduction. Offspring cells or organisms are said to inherit the genetic information of their parents.
heritability
heterosis
heterozygous: In a diploid organism, having two different alleles at a given genetic locus. In genetics shorthand, heterozygous genotypes are represented by a pair of non-matching letters or symbols, often an uppercase letter (indicating a dominant allele) and a lowercase letter (indicating a recessive allele), such as "Aa" or "Bb". Contrast homozygous.
histone
homologous chromosomes: A set of two matching chromosomes, one maternal and one paternal, which pair up with each other inside the nucleus during meiosis. They have the same genes at the same loci, but may have different alleles.
homologous recombination
homozygous: In a diploid organism, having two identical alleles at a given genetic locus. In genetics shorthand, homozygous genotypes are represented by a pair of matching letters or symbols, such as "AA" or "aa". Contrast heterozygous.
horizontal gene transfer (HGT)
Human Genome Project (HGP)
hybridization
hybridization probe

I

in situ hybridization
inbreeding: Sexual reproduction between breeds or individuals that are closely related genetically. Inbreeding results in homozygosity, which can increase both the probability of offspring being affected by deleterious recessive traits and the probability of fixing beneficial traits within the breeding population. Contrast outbreeding.
incomplete dominance
indel: A term referring to either an insertion or a deletion of one or more bases in a nucleic acid sequence.
insertion: A type of mutation in which one or more bases are added to a nucleic acid sequence.
intron: Any nucleotide sequence within a gene that is removed by RNA splicing during post-transcriptional modification of the mRNA primary transcript and therefore absent from the final mature mRNA. The term refers to both the sequence as it exists within a DNA molecule and to the corresponding sequence in RNA transcripts. Contrast exon.
isochromosome

J

junctional diversity

K

karyotype
knockin
knockout

L

linkage
linkage disequilibrium
locus: A specific, fixed position on a chromosome where a particular gene or genetic marker resides.
LOD score
long arm: In condensed chromosomes where the positioning of the centromere creates two segments of unequal length, the longer of the two segments or "arms" of a chromatid. Contrast short arm.
lyonization

M

map unit (m.u.): See centimorgan.
medical genetics
meiosis: A specialized type of cell division that occurs exclusively in sexually reproducing eukaryotes, during which DNA replication is followed by two consecutive rounds of division to ultimately produce four genetically unique haploid daughter cells, each with half the number of chromosomes as the original diploid parent cell. Meiosis only occurs in cells of the sex organs, and serves the purpose of generating haploid gametes such as sperm, eggs, or spores, which are later fused during fertilization. The two meiotic divisions, known as Meiosis I and Meiosis II, also include various genetic recombination events between homologous chromosomes.
Mendelian inheritance
messenger RNA (mRNA)
metagenomics: The study of genetic material recovered directly from environmental samples, as opposed to organisms cultivated in laboratory cultures.
metaphase
microchromosome: A type of very small chromosome, generally less than 20,000 base pairs in size, present in the karyotypes of some organisms.
microRNA (miRNA)
microsatellite
minisatellite
missense mutation: A type of point mutation which results in a codon that codes for a different amino acid than in the unmutated sequence.
mitochondrial DNA (mtDNA)
mitosis: In eukaryotic cells, the part of the cell cycle during which the division of the nucleus takes place and replicated chromosomes are separated into two distinct nuclei. Mitosis is generally preceded by the S stage of interphase, when the cell's DNA is replicated, and either occurs simultaneously with or is followed by cytokinesis, when the cytoplasm and cell membrane are divided into two new daughter cells.
mobile genetic element
mobilome
molecular genetics: A branch of genetics that employs methods of molecular biology to study the structure and function of genes and gene products at the molecular level.
monosomy
mosaic
mutagen
mutagenesis
mutation: Any permanent change in the nucleotide sequence of a strand of DNA or RNA. Mutations play a role in both normal and abnormal biological processes, including evolution. They can result from replication errors, molecular damage, or manipulations by mobile genetic elements. Repair mechanisms have evolved in many organisms to correct them.

N

neutral mutation
nitrogenous base: Any organic compound containing a nitrogen atom that has the chemical properties of a base. A set of five distinct nitrogenous bases – adenine (A), guanine (G), cytosine (C), thymine (T), and uracil (U) – are especially relevant to biology because they are used in the construction of nucleotides, which in turn are the primary monomers that make up nucleic acids.
non-coding DNA
non-coding RNA
nondisjunction
nonsense mutation: A type of point mutation which results in a premature stop codon in the transcribed mRNA sequence, thereby causing the premature termination of translation and producing a truncated, incomplete, and often non-functional protein.
Northern blotting
nuclear membrane: A sub-cellular barrier consisting of two lipid bilayer membranes that surrounds the nucleus in eukaryotic cells.
nucleic acid: A long, polymeric macromolecule made up of smaller monomers called nucleotides which are chemically linked to one another in a chain. Two specific types of nucleic acid, DNA and RNA, are used in biological systems to encode the genetic information governing the construction, development, and ordinary processes of all living organisms. The order, or sequence, of the nucleotides in DNA and RNA molecules contains information that is translated into proteins, which direct all of the chemical reactions necessary for life.
nucleic acid sequence: The precise order of consecutively linked nucleotides in a nucleic acid molecule, such as DNA or RNA. Long sequences of nucleotides are the principal means by which biological systems store genetic information, and therefore the accurate replication, transcription, and translation of such sequences is of the utmost importance, lest the information be lost or corrupted. Nucleic acid sequences may be equivalently referred to as sequences of nitrogenous bases, nucleobases, nucleotides, or base pairs, and they correspond directly to sequences of codons and amino acids.
nucleobase: One of the five primary or canonical nitrogenous bases – adenine (A), guanine (G), cytosine (C), thymine (T), and uracil (U) – that form nucleosides and nucleotides, the latter of which are the fundamental building blocks of nucleic acids. The ability of these nucleobases to form base pairs via hydrogen bonding, as well as their flat, compact three-dimensional profiles, allows them to "stack" one upon another and leads directly to the long-chain structures of DNA and RNA.
nucleolus: An organelle within the nucleus of eukaryotic cells which is composed of proteins, DNA, and RNA and serves as the site of ribosome synthesis.
nucleoside: An organic molecule composed exclusively of a nitrogenous base bound to a five-carbon sugar (either ribose or deoxyribose), as opposed to a nucleotide, which additionally includes one or more phosphate groups.
nucleosome
nucleotide: An organic molecule that serves as the monomer or subunit of nucleic acid polymers, including DNA and RNA. Each nucleotide is composed of three constituent parts: a nitrogenous base, a five-carbon sugar (either ribose or deoxyribose), and at least one phosphate group. Though technically distinct, the term "nucleotide" is often used interchangeably with nitrogenous base, nucleobase, and base pair when referring to the sequences that make up nucleic acids. See also nucleoside.
nucleus: A membrane-enclosed organelle found in eukaryotic cells which contains most of the cell's genetic material (organized as chromosomes) and directs the activities of the cell by regulating gene expression.
nullizygous

O

Okazaki fragments
oligonucleotide
oncogene: A gene that has the potential to cause cancer. In tumor cells, such genes are often mutated and/or expressed at abnormally high levels.
open reading frame (ORF): The part of a reading frame that has the ability to be translated from DNA or RNA into protein; any continuous stretch of codons that contains a start codon and a stop codon.
operon
origin of replication
outbreeding: Sexual reproduction between different breeds or individuals, which has the potential to increase genetic diversity by introducing unrelated genetic material into a breeding population. Contrast inbreeding.

P

p53
palindromic sequence
particulate inheritance
pedigree chart
peptide: A short chain of amino acid monomers linked by covalent peptide bonds.
pharmacogenomics
phenotype: The composite of the observable morphological, physiological, and behavioral traits of an organism that result from the expression of the organism's genotype as well as the influence of environmental factors and the interactions between the two.
phosphate backbone
phylogenetics: The study of the evolutionary history of and relationships between individuals or groups of organisms, such as species or populations, through methods that evaluate observed heritable traits, including morphological features and DNA sequences. The result of such analyses is known as a phylogeny or phylogenetic tree.
plasmid: Any small DNA molecule that is physically separated from the larger body of chromosomal DNA and can replicate independently. Plasmids are most commonly found as small, circular, double-stranded DNA molecules in prokaryotes such as bacteria, though they are also sometimes present in archaea and eukaryotes.
pleiotropy
ploidy: The number of complete sets of chromosomes in a cell, and hence the number of possible alleles present within the cell at any given autosomal locus.
point mutation: A type of mutation by which a single nucleotide base is changed, inserted, or deleted from a sequence of DNA or RNA.
polyadenylation
polygenic trait
polymerase chain reaction (PCR)
polymorphism
polypeptide: A long, continuous, and unbranched polymeric chain of amino acid monomers linked by covalent peptide bonds, typically longer than a peptide. Proteins generally consist of one or more polypeptides arranged in a biologically functional way.
polyploid
population genetics
positional cloning
post-transcriptional modification
post-translational modification
primary transcript
primer
proband: A term used in medical genetics and genealogy to denote a particular subject being studied or reported on.
promoter
prophase
protein: A linear polymeric macromolecule composed of a series of amino acids linked by peptide bonds. Proteins carry out the majority of the chemical reactions that occur inside living cells.
proteome
pseudogene
Punnett square
purine: A double-ringed heterocyclic organic compound which, along with pyrimidine, is one of two molecules from which all nitrogenous bases (including those used in DNA and RNA) are derived. Adenine (A) and guanine (G) are classified as purines.
pyrimidine: A single-ringed heterocyclic organic compound which, along with purine, is one of two molecules from which all nitrogenous bases (including those used in DNA and RNA) are derived. Cytosine (C), thymine (T), and uracil (U) are classified as pyrimidines.
pyrimidine dimer

Q

quantitative genetics
quantitative trait locus (QTL)

R

reading frame: A way of dividing the nucleotide sequence in a DNA or RNA molecule into a set of consecutive, non-overlapping triplets, which is "read" by proteins during transcription and replication. In coding DNA, each triplet is referred to as a codon that corresponds to a particular amino acid during translation. In general, only one reading frame (the so-called open reading frame) in a given section of a nucleic acid can be used to make functional proteins, but there are exceptions in a few organisms. A frameshift mutation results in a shift in the normal reading frame and affects all downstream codons.
recessiveness
recombinant DNA (rDNA)
replication: The process by which certain biological molecules, notably the nucleic acids DNA and RNA, produce copies of themselves.
replicon
repressor
response element: A short sequence of DNA within a promoter region that is able to bind specific transcription factors in order to regulate transcription of specific genes.
restriction enzyme
restriction fragment length polymorphism (RFLP)
reverse transcriptase
ribonucleic acid (RNA): A polymeric nucleic acid molecule composed of a series of ribonucleotides which incorporate a set of four nucleobases: adenine (A), guanine (G), cytosine (C), and uracil (U). Unlike DNA, RNA is more often found as a single strand folded onto itself, rather than a paired double strand. Various types of RNA molecules serve in a wide variety of essential biological roles, including coding, decoding, regulating, and expressing genes, as well as functioning as signaling molecules and, in certain viral genomes, as the primary genetic material itself.
ribose
ribosomal RNA (rRNA)
ribosome: A molecular complex that serves as the site of protein synthesis. Ribosomes consist of two subunits (the small subunit, which reads the messages encoded in mRNA molecules, and the large subunit, which links amino acids in sequence to form a polypeptide chain), each of which is composed of one or more strands of ribosomal RNA and various ribosomal proteins.
RNA interference
RNA polymerase

S

Sanger sequencing
scaffolding
sense
sequence-tagged site (STS)
sex chromosome: See allosome.
sex linkage
short arm: In condensed chromosomes where the positioning of the centromere creates two segments of unequal length, the shorter of the two segments or "arms" of a chromatid. Contrast long arm.
short tandem repeat: See microsatellite.
shotgun sequencing
silent mutation
single nucleotide polymorphism (SNP)
single-stranded DNA (ssDNA)
sister chromatids: A pair of identical copies (chromatids) produced as the result of the DNA replication of a chromosome, particularly when both copies are joined together by a common centromere; the pair of sister chromatids is called a dyad. The two sister chromatids are ultimately separated from each other into two different cells during mitosis or meiosis.
small interfering RNA (siRNA)
solenoid fiber
somatic cell: Any biological cell forming the body of an organism, or, in multicellular organisms, any cell other than a gamete, germ cell, or undifferentiated stem cell. Somatic cells are theoretically distinct from cells of the germ line, meaning the mutations they have undergone can never be transmitted to the organism's descendants, though in practice exceptions do exist.
somatic cell nuclear transfer (SCNT)
Southern blotting
spectral karyotype (SKY)
splicing: See genetic engineering.
split-gene
standard genetic code: The genetic code used by the vast majority of living organisms for translating nucleic acid sequences into proteins. In this system, of the 64 possible permutations of three-letter codons that can be made from the four nucleotides, 61 code for one of the 20 amino acids, and the remaining three code for stop signals. For example, the codon CAG codes for the amino acid glutamine and the codon TAA is a stop codon. The standard genetic code is described as degenerate or redundant because a single amino acid may be coded for by more than one codon.
start codon
statistical genetics
stem-loop
stem cell: Any biological cell which has not yet differentiated into a specialized cell type and which can divide through mitosis to produce more stem cells.
stop codon
structural gene: A gene that codes for any protein or RNA product other than a regulatory factor. Structural gene products include enzymes, structural proteins, and certain non-coding RNAs.
substitution: 1. Another name for a point mutation.; 2. A type of point mutation in which a single nucleotide base is changed or substituted for another.
swivel point
synonymous mutation

T

tandem repeat
TATA box
telomere
telophase
thymine: One of the four nucleobases present in DNA molecules. Thymine forms a base pair with adenine. In RNA, thymine is not used at all, and is instead replaced with uracil.
trait
transcription: The first step in the process of gene expression, in which a messenger RNA molecule complementary to a particular gene encoded in DNA is synthesized by enzymes called RNA polymerases. Transcription must be followed by translation before a functional protein can be produced.
transcription factor (TF): Any protein that controls the rate of transcription of genetic information from DNA to messenger RNA by binding to a specific DNA sequence and promoting or blocking the recruitment of RNA polymerase to nearby genes. Transcription factors can effectively turn "on" and "off" specific genes in order to make sure they are expressed at the right times and in the right places; for this reason, they are a fundamental and ubiquitous mechanism of gene regulation.
transcriptome
transfer RNA (tRNA)
transgenic
translation: The second step in the process of gene expression, in which the messenger RNA transcript produced during transcription is read by a ribosome to produce a functional protein.
translocation
transposable element (TE)

U

unequal crossing-over
uracil: One of the four nucleobases present in RNA molecules. Uracil forms a base pair with adenine. In DNA, uracil is not used at all, and is instead replaced with thymine.

V

W

Western blotting
wild type (WT): A term referring to the phenotype of the typical form of a species as it occurs in nature, a product of the standard "normal" allele at a given locus as opposed to that produced by a non-standard mutant allele.

X

X chromosome
X-linked trait

Y

Y chromosome
yeast artificial chromosome (YAC)

Z

zygosity
zygote

References

Budd, A. (2012). "Introduction to genome biology: features, processes, and structures". Methods in Molecular Biology (855): 3–4.

↑ "Talking Glossary of Genetic Terms". genome.gov. 8 October 2017. Retrieved 8 October 2017.

External links

National Human Genome Research Institute (NHGRI) Talking Glossary of Genetic Terms

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.

[1] "Talking Glossary of Genetic Terms". genome.gov. 8 October 2017. Retrieved 8 October 2017.

Glossary of genetics

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See also

References

External links