The Geometry of Normal Tissue and Cancer Gene Expression Manifolds

IF 1.4 4区 生物学 Q4 MATHEMATICAL & COMPUTATIONAL BIOLOGY
Joan Nieves, Augusto Gonzalez
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引用次数: 0

Abstract

A recent paper shows that in gene expression space the manifold spanned by normal tissues and the manifold spanned by the corresponding tumors are disjoint. The statement is based on a two-dimensional projection of gene expression data. In the present paper, we show that, for the multi-dimensional vectors defining the centers of cloud samples: 1. The closest tumor to a given normal tissue is the tumor developed in that tissue, 2. Two normal tissues define quasi-orthogonal directions, 3. A tumor may have a projection onto its corresponding normal tissue, but it is quasi-orthogonal to all other normal tissues, and 4. The cancer manifold is roughly obtained by translating the normal tissue manifold along an orthogonal direction defined by a global cancer progression axis. These geometrical properties add a new characterization of normal tissues and tumors and may have biological significance. Indeed, normal tissues at the vertices of a high-dimensional simplex could indicate genotype optimization for given tissue functions, and a way of avoiding errors in embryonary development. On the other hand, the cancer progression axis could define relevant pan-cancer genes and seems to be consistent with the atavistic theory of tumors.

Abstract Image

正常组织和癌症基因表达矩阵的几何图形
最近的一篇论文表明,在基因表达空间中,正常组织所跨的流形和相应肿瘤所跨的流形是不相交的。这一论断基于基因表达数据的二维投影。在本文中,我们将证明,对于定义云样本中心的多维向量,它们之间是不相交的:1.距离给定正常组织最近的肿瘤就是在该组织中生长的肿瘤;2. 两个正常组织定义了准正交方向;3. 一个肿瘤可能在其对应的正常组织上有一个投影,但它与所有其他正常组织都是准正交的;4.4. 癌症流形大致是通过将正常组织流形沿由全球癌症进展轴定义的正交方向平移而得到的。这些几何特性为正常组织和肿瘤增添了新的特征,可能具有生物学意义。事实上,位于高维单纯形顶点的正常组织可以表明给定组织功能的基因型优化,也是避免胚胎发育错误的一种方法。另一方面,癌症进展轴可以定义相关的泛癌症基因,并且似乎与肿瘤的遗传理论相一致。
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来源期刊
Acta Biotheoretica
Acta Biotheoretica 生物-生物学
CiteScore
2.70
自引率
7.70%
发文量
19
审稿时长
3 months
期刊介绍: Acta Biotheoretica is devoted to the promotion of theoretical biology, encompassing mathematical biology and the philosophy of biology, paying special attention to the methodology of formation of biological theory. Papers on all kind of biological theories are welcome. Interesting subjects include philosophy of biology, biomathematics, computational biology, genetics, ecology and morphology. The process of theory formation can be presented in verbal or mathematical form. Moreover, purely methodological papers can be devoted to the historical origins of the philosophy underlying biological theories and concepts. Papers should contain clear statements of biological assumptions, and where applicable, a justification of their translation into mathematical form and a detailed discussion of the mathematical treatment. The connection to empirical data should be clarified. Acta Biotheoretica also welcomes critical book reviews, short comments on previous papers and short notes directing attention to interesting new theoretical ideas.
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