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Properties of Topological Networks of Flexible Polygonal Chains

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Arsuaga J., Diao Y., Klingbeil M., Rodriguez V.

Molecular Based Mathematical Biology

2014

tom 2

nr 1

Trypanosomatida parasites, such as Trypanosoma and Leishmania, are the cause of deadly diseases in many third world countries. The three dimensional structure of their mitochondrial DNA, known as kinetoplast DNA (kDNA), is unique since it is organized into several thousands of minicircles that are topologically linked. How and why the minicircles form such a network have remained unanswered questions. In our previous work we have presented a model of network formation that hypothesizes that the network is solely driven by the confinement of minicircles. Our model shows that upon confinement a percolation network forms. This network grows into a space filling network, called saturation network, upon further confinement of minicircles. Our model also shows, in agreement with experimental data, that the mean valence of the network (that is, the average number of minicircles topologically linked to any minicircle in the network) grows linearly with minicircle density. In our previous studies however we disregarded DNA flexibility and used rigid minicircles to model DNA, here we address this limitation by allowing minicircles to be flexible. Our numerical results show that the topological characteristics that describe the growth and topology of the minicircle networks have similar values to those observed in the case of rigid minicircles suggesting that these properties are robust and therefore a potentially adequate description of the networks observed in Trypanosomatid parasites.

Ograniczanie wyników

1 Molecular Based Mathematical Biology

1 Arsuaga J.

1 Diao Y.

1 Klingbeil M.

1 Rodriguez V.

1 2014

Wyniki wyszukiwania

Properties of Topological Networks of Flexible Polygonal Chains