Group Theory of Messenger RNA Metabolism and Disease

Planat, Michel; Amaral, Marcelo; Chester, David; Fang, Fang; Aschheim, Raymond; Irwin, Klee

doi:10.14218/ge.2023.00079

Cited by 1 publication

(3 citation statements)

References 35 publications

(60 reference statements)

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“…Chemical modifications in the environment also controls the metabolism of GE. For instance, RNA methylation with N 6 -methymadenosine (m 6 A) is documented in our recent paper [8].…”

Section: Introductionmentioning

confidence: 91%

“…Since the genome is digital with its four nucleotides A, U/T, G and C as letters, there are important short sequences as the consensus sequence of a transcription factor, a TATA box, a polyadenymation signal or a microRNA (miRNA) whose structure should obey group theory and associated character variety rules. Otherwise, a disease is in sight [6][7][8]. Chemical modifications in the environment also controls the metabolism of GE.…”

Section: Introductionmentioning

confidence: 99%

“…Schrödinger's book [9] proposes aperiodicity of living "crystals". Our papers [7,8] characterize some aperiodic DNA/RNA sequences. But in this paper we do not focus on this aspect of genome scale homeostasis.…”

Section: Introductionmentioning

confidence: 99%

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Topology and Dynamics of Transcriptome (Dys)regulation

Planat,

Chester

2024

Preprint

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RNA transcripts play a crucial role as witnesses of gene expression health. Identifying disruptive short sequences in RNA transcription and regulation is essential for potentially treating diseases. Let’s delve into the mathematical intricacies of these sequences. We’ve previously devised a mathematical approach for defining a “healthy” sequence (10.14218/GE.2023.00079). This sequence is characterized by having at most four distinct nucleotides (denoted as nt≤4). It serves as the generator of a group denoted as fp. The desired properties of this sequence are as follows: fp should be close to a free group of rank nt−1, it must be aperiodic, fp should not have isolated singularities within its SL2(C) character variety (specifically within the corresponding Groebner basis). Now, let’s explore the concept of singularities. There are cubic surfaces associated with the character variety of a four-punctured sphere denoted as S24. When we encounter these singularities, we find ourselves dealing with some algebraic solutions of a dynamical second-order differential (and transcendental) equation known as the Painlevé VI equation (10.3390/dynamics4010001). In certain cases, S24 degenerates, in the sense that two punctures collapse, resulting in a “wild” dynamics governed by the Painlevé equations of an index lower than VI. In our paper, we provide examples of these fascinating mathematical structures within the context of miRNAs. Specifically, we find a clear relationship between decorated character varieties of Painlevé equations and the character variety calculated from the seed of oncomirs. These findings should find applications in cancer research.

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“…Chemical modifications in the environment also controls the metabolism of GE. For instance, RNA methylation with N 6 -methymadenosine (m 6 A) is documented in our recent paper [8].…”

Section: Introductionmentioning

confidence: 91%

Section: Introductionmentioning

confidence: 99%

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Topology and Dynamics of Transcriptome (Dys)regulation

Planat,

Chester

2024

Preprint

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Group Theory of Messenger RNA Metabolism and Disease

Cited by 1 publication

References 35 publications

Topology and Dynamics of Transcriptome (Dys)regulation

Topology and Dynamics of Transcriptome (Dys)regulation

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