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18
Transcriptomics and Proteomics
Fig. 18.1 The major parts of proteomics and their interrelationships, and their relation to pharma-
ceutical drugs
in turn determines protein binding, localization, and so forth. These are all crucial
aspects of the dynamical system that precedes the phenotype in the overall genotype
right arrow→phenotype transformation.
These modifications increase the potential repertoire of proteins expressible from
genes by typically one to two orders of magnitude (since many combinations are
possible) compared with the repertoire of genes. Notice that effecting these modifi-
cations requires enzymes; hence, the proteome is highly self-referential.
Although the number of different proteins therefore far exceeds the number of
genes, the actual number of proteins present in a cell at any one instant may well be
much smaller than the number of genes, since only a part of the possible repertoire
is likely to be expressed. Each cell type in an organism has a markedly different
proteome. The proteome for a given cell type is, moreover, likely to depend on its
environment; unlike the genome, therefore, which is relatively static, the proteome
can be highly dynamic.
Proteomics is sometimes defined so as to encompass what is otherwise called inter-
actomics: the study of the ensemble of molecular interactions, especially protein–
protein interactions, in a cell, including those that lead to the formation of more or
less long-lived multiprotein complexes. These aspects are covered in Chap. 23.
18.1
Transcriptomics
The goal of transcriptomics is to identify, quantify, and analyse the amounts of all the
mRNA in a cell. This is mainly done using microarrays (“gene chips”). The principle
of a microarray is to coat a flat surface with spots of DNA complementary to the
expressed mRNA, which is then captured because of the complementary base-pairing
(hybridization) between DNA and RNA (A–U, C–G, G–C, T–A) and identified. The
relationship of a microarray to a classical affinity assay resembles that of a massively
parallel processor to a classical linear processor, in which instructions are executed