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Long Branch Attraction Form of systematic error (tree-building error) in which dis
tantly related taxa are incorrectly considered to be closely related or closely related to be
unrelated, resulting from comparing sequences of different lengths or when a single
sequence is quite long and the taxa have different numbers of mutations.
Markov Chain This is the name given to a random process (Markov chain; also Markov
process, after Andrei Andreyevich Markov; other spellings: Markov chain, Markoff chain,
Markof chain). A good example is the random results of dice rolls. By knowing only a
limited past history (e.g. the last three throws), it will only be possible to make predictions
about future developments that are as good as those made by knowing the entire past his
tory of all previous throws: Each new throw has a random result, and the probability of a
given number of dice is always one-sixth.
Markov Process see Markov chain.
Mathematical Modelling Mathematical modelling describes the representation of
experimental data with mathematical equations. Here, there are the Boolean/discrete,
quantitative and semi-quantitative methods. In principle, these methods consider the nodes
(proteins) of a network according to their activation state, i.e. either activated (on; maxi
mally activated = 1) or inhibited (off; maximally inhibited = 0). According to the initial
state (how strongly is the node activated/deactivated), the further temporal course, i.e. how
does the state of the node change over time, is calculated for each individual node of the
network. In this way, the behavior or the network interconnection can be examined in
more detail, whereby corresponding network effects, i.e. the respective effect of a node,
also become clear. Boolean modeling always considers the on/off (1/0) state of a system,
i.e., the node is either activated (on; 1) or inhibited (off; 0). Quantitative modeling is useful
for kinetic data, such as Michaelis–Menten kinetics (example software: PottersWheel).
Here, the system state of a network is considered using exact concentrations and mathe
matical differential equations, but this requires information about the kinetics.
Semiquantitative modeling combines both methods, which enables one to consider the
system state in the interval between 0 and 1, which can also be done without knowledge
about the kinetics (example software: SQUAD and Jimena).
Maximum Likelihood Method Phylogenetic method in which the most probable path
way is calculated for all mutations (every single mutation is taken into account) (very
computationally intensive and time-consuming, but particularly accurate).
Medical Informatics In common parlance, this is computer support in the clinic. In par
ticular, this includes computers in intensive care monitoring and anaesthesia, the elec
tronic infrastructure for patient documentation (doctor’s letters, findings, electronic
medical records) and expert systems (such as databases on antidotes for poisoning or
infections) as well as educational software (e.g. for anaesthesia, anatomy). In contrast, the
modelling of diseases would be directly attributed to bioinformatics.
18 Glossary