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exponential growth of possibilities, e.g., the traveling salesman’s problem of driving to
numerous cities along the most optimal route possible. The same is true for the prediction
of protein structure (whether ab initio in three dimensions or as a homology model), the
calculation of stable system states for pathways (for example, in the cancer cell), and
metabolic modeling. Many exciting biological problems are NP problems. Typically, in an
NP problem, I don’t know exactly when I will find the solution, no matter what computer
algorithm I use. However, if I am shown the solution, I can confirm it in polynomial time
(i.e., rather quickly).
Omics Branch of biology that deals with the analysis of large amounts of biological data.
Examples are proteomics, metabolomics, genomics, RNAomics, interactomics, which
deal with big data about proteins, metabolites, genomes, RNA and interactions.
Ordered Systems Description of systems by simple mathematical equations, where the
behaviour is predictable and can be described exactly for the entire period of the flight or
train journey, e.g. flight of a rocket.
Pandemic An epidemic spreading worldwide (epidemic = contagious disease, infectious
disease). Currently (2020) a pandemic is caused by the virus Sars-CoV-2 (severe acute
respiratory syndrome coronavirus 2). This is a coronavirus (cause respiratory disease; they
have a ring, a “corona” of appendages around the spherical body). Pedigree analyses show
high relatedness to the SARS virus (2002/2003 pandemic). Another relative is the MERS-
CoV (Middle East respiratory syndrome coronavirus). A pandemic with many millions of
deaths was the “Spanish flu” after World War 1. Important for a pandemic are factors that
ensure a steady spread of the disease across many national borders and thus worldwide
(the factor R0, the infection rate per infected person always remains at least slightly above
1, so that there are always more people infected). This can be well modelled bioinformati
cally, as can the effect of control measures, mutation rates, mortality, changes in the infec
tion rate.
Parsimony Phylogenetic procedure in which the mostly not directly observable ances
tors are calculated in such a way that all observed present-day sequences can be generated
with as few mutations of these ancestor sequences as possible.
Polymerase enzyme that produces a new nucleic acid. This is usually done according to
a template. There are RNA-producing RNA polymerases and DNA-producing DNA
polymerases.
Polymerase Chain Reaction (PCR) Method of molecular biology that serves to double
the genetic information (DNA) by means of a chain reaction (constant doubling of the
DNA strands). In order to achieve this specifically for a certain DNA sequence, one needs
the start of the desired sequence and determines a complementary initial sequence (start
primer) and at the end of the sequence on the opposite strand a reverse primer that is again
complementary to it. With the help of the two primers, one specifies where a new strand is
to be synthesized for the polymerase that is also required. After about 1 min of DNA syn
18 Glossary