255
Gene Section on DNA that codes for specific information and genes.
Gene Expression Provides information about the activation of a gene, which leads to the
biosynthesis of a protein through transcription (RNA synthesis) and translation.
Gene Ontology (GO) Grouping of genes according to their species-specific known func
tion in biological processes, cellular components and molecular function. Many tools use
this grouping for initial functional analysis and characterization of genes, such as the
Cytoscape plugin BiNGO (see BiNGO).
Genetic Algorithms Search strategy in which solutions are bred in the computer using
artificial evolution through selection, mutation and recombination of digitally programmed
chromosomes (encode the problem).
Genome The entire genetic material (hereditary material, also called genome) and thus
all genetic information of an organism. Only viruses can exceptionally contain a genome
of RNA. Large organelles, especially mitochondria and chloroplasts, also contain DNA
and a small ring-shaped DNA molecule (a few thousand nucleotides). This indicates their
descent from free-living bacteria (endosymbiont hypothesis). The genome of viruses is
typically a few thousand nucleotides in size (only the polymerase duplicates the genome),
that of bacteria a few million base pairs (polymerase and correction enzymes), and that of
higher organisms (with nucleus) several billion nucleotides (polymerase and sophisticated
correction pathways).
Genomics Analysis of the genome, the totality of all genes.
Genome-Wide Association Studies (GWAS) Studies to identify genome-wide impor
tant genes associated, for example, with a disease, in order to detect more precisely the
specific signal of mutations that are then important for the particular individual aspect
(disease, which exact subtype).
Genetic Shift Random change of larger sequence regions or even entire genes that can
influence function, e.g. catalytic domain or functional site. In contrast, gene drift is a
smaller random change in allele frequency within the gene pool of a population.
Global Alignment Two sequences are compared with each other by comparing which
amino acid residues are modified and which are conserved. One can either compare over
the whole length or only a part of the sequence (see local alignment). For global align
ment, there is an exact method, Needleman and Wunsch search, which is slow but accu
rate, and various heuristic methods (inexact, but few errors and much faster). For example,
for phylogenetic methods, CLUSTAL search works fast.
Gödel, Gödel’s Incompleteness Theorem see second Gödel’s incompleteness theorem.
18 Glossary