Isalan Mark
EMBL-CRG Systems Biology Research Unit, Centre for Genomic Regulation (CRG), UPF, Barcelona, Spain.
Bioessays. 2009 Oct;31(10):1110-5. doi: 10.1002/bies.200900072.
Network motifs are small patterns of connections, found over-represented in gene regulatory networks. An example is the negative feedback loop (e.g. factor A represses itself). This opposes its own state so that when 'on' it tends towards 'off' - and vice versa. Here, we argue that such self-opposition, if considered dimensionlessly, is analogous to the liar paradox: 'This statement is false'. When 'true' it implies 'false' - and vice versa. Such logical constructs have provided philosophical consternation for over 2000 years. Extending the analogy, other network topologies give strikingly varying outputs over different dimensions. For example, the motif 'A activates B and A. B inhibits A' can give switches or oscillators with time only, or can lead to Turing-type patterns with both space and time (spots, stripes or waves). It is argued here that the dimensionless form reduces to a variant of 'The following statement is true. The preceding statement is false'. Thus, merely having a static topological description of a gene network can lead to a liar paradox. Network diagrams are only snapshots of dynamic biological processes and apparent paradoxes can reveal important biological mechanisms that are far from paradoxical when considered explicitly in time and space.
网络基序是连接的小模式,在基因调控网络中呈现出过度代表性。一个例子是负反馈回路(例如,因子A抑制自身)。这与自身状态相反,因此当处于“开启”状态时,它趋向于“关闭”——反之亦然。在此,我们认为这种自我对立,如果从无量纲的角度考虑,类似于说谎者悖论:“这句话是假的”。当为“真”时,它意味着“假”——反之亦然。这种逻辑结构已经引发了两千多年的哲学困惑。扩展这种类比,其他网络拓扑结构在不同维度上会给出截然不同的输出。例如,基序“A激活B且A、B抑制A”仅在时间上可以产生开关或振荡器,或者在时空上可以导致图灵型模式(斑点、条纹或波)。在此有人认为,无量纲形式简化为“下面这句话是真的。上面那句话是假的”的一种变体。因此,仅仅对基因网络进行静态拓扑描述就可能导致说谎者悖论。网络图只是动态生物过程的快照,而明显的悖论可能揭示出重要的生物学机制,当在时间和空间中明确考虑时,这些机制一点也不矛盾。
