MODeLING.Vis: a graphical user interface toolbox developed for machine learning and pattern recognition of biomolecular data

Jorge Emanuel Martins; Davide D’Alimonte; Joana Simões; Sara Sousa; Eduardo Esteves; Nuno Rosa; Maria José Correia; Mário Simões; Marlene Barros

doi:10.3390/sym15010042

MODeLING.Vis: a graphical user interface toolbox developed for machine learning and pattern recognition of biomolecular data

Jorge Emanuel Martins^*, Davide D’Alimonte, Joana Simões, Sara Sousa, Eduardo Esteves, Nuno Rosa, Maria José Correia, Mário Simões, Marlene Barros

^*Autor correspondente para este trabalho

Resultado de pesquisa › revisão de pares

1 Citação (Scopus)

34 Transferências (Pure)

Resumo

Many scientific publications that affect machine learning have set the basis for pattern recognition and symmetry. In this paper, we revisit the concept of “Mind-life continuity” published by the authors, testing the symmetry between cognitive and electrophoretic strata. We opted for machine learning to analyze and understand the total protein profile of neurotypical subjects acquired by capillary electrophoresis. Capillary electrophoresis permits a cost-wise solution but lacks modern proteomic techniques’ discriminative and quantification power. To compensate for this problem, we developed tools for better data visualization and exploration in this work. These tools permitted us to examine better the total protein profile of 92 young adults, from 19 to 25 years old, healthy university students at the University of Lisbon, with no serious, uncontrolled, or chronic diseases affecting the nervous system. As a result, we created a graphical user interface toolbox named MODeLING.Vis, which showed specific expected protein profiles present in saliva in our neurotypical sample. The developed toolbox permitted data exploration and hypothesis testing of the biomolecular data. In conclusion, this analysis offered the data mining of the acquired neuroproteomics data in the molecular weight range from 9.1 to 30 kDa. This molecular weight range, obtained by pattern recognition of our dataset, is characteristic of the small neuroimmune molecules and neuropeptides. Consequently, MODeLING.Vis offers a machine-learning solution for probing into the neurocognitive response.

Idioma original	English
Número do artigo	42
Número de páginas	28
Revista	Symmetry
Volume	15
Número de emissão	1
DOIs	https://doi.org/10.3390/sym15010042
Estado da publicação	Publicado - jan. 2023

Acesso ao documento

10.3390/sym15010042Licença:

59344227Final published version, 5,12 MBLicença:

http://hdl.handle.net/10400.14/39713Licença:

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Link to publication in Scopus

CIIS: Centro de Investigação Interdisciplinar em Saúde
Barros, M. (PI), Rosa, N. (Investigador), Correia, M. J. (Investigador), Caldas, A. C. (Investigador), Amado, J. C. (Investigador), Figueiredo, A. S. (Investigador), Esteves, A. C. (Investigador), Mineiro, A. (Investigador), Abreu, A. M. (Investigador), Duarte, A. S. (Investigador), Almeida, S. F. (Investigador), Correia, A. (Investigador), Moura, A. (Investigador), Almeida, A. (Investigador), Araújo, B. (Investigador), Moura-Netto, C. (Investigador), Ferrito, C. (Investigador), Pais-Vieira, C. (Investigador), Festas, C. (Investigador), Marques-Vieira, C. (Investigador), Catré, D. (Investigador), Nunes, E. (Investigador), Jesus, É. (Investigador), Ribeiro, F. (Investigador), Rosário, F. (Investigador), Fernandes, G. (Investigador), Rato, J. R. (Bolseiro), Salgado, J. R. (Investigador), Neves-Amado, J. (Investigador), Amendoeira, J. (Investigador), Sá, L. (Investigador), Capelas, M. L. (Investigador), Vieira, M. M. (Investigador), Nunes, M. V. S. (Investigador), Cardoso, M. (Investigador), Veiga, N. J. (Investigador), Fonseca, P. (Investigador), Correia, P. N. (Investigador), Couto, P. (Investigador), Pontífice-Sousa, P. (Investigador), Ravasco, P. (Investigador), Carvalho, P. V. D. (Investigador), Alves, P. (Investigador), Melo, P. (Investigador), Silva, R. (Investigador), Canaipa, R. (Investigador), Noites, R. (Investigador), Rio, R. (Investigador), Almeida, S. (Investigador), Deodato, S. (Investigador), Caldeira, S. (Investigador), Silva, S. (Investigador), Borges, T. (Investigador), Silva, V. (Investigador), Charepe, Z. (Investigador), Rodrigues-Pires, F. (Voluntário), Veludo, F. (Investigador), Carmo, H. (Bolseiro), Romeiro, J. (Estudante), Melo, M. (Investigador), Braga, M. (Investigador), Amaral, T. (Investigador), Moreira, M. A. (Investigador), Guerra, N. (Estudante), Santos, P. (Investigador), Paço, S. (Estudante), Lynce, S. (Bolseiro), Miguel, S. (Estudante), Costa, T. (Investigador), Silva-Neves, V. (Investigador), Silva, A. (Investigador), Carvalho, A. R. (Investigador), Almeida, B. (Investigador), Figueiredo, C. (Investigador), Esteves, E. (Bolseiro), Araújo, F. M. (Investigador), Garcia, J. G. (Investigador), Santos, L. (Investigador), Santos, N. M. D. (Investigador), Lopes, P. (Investigador), Bornes, R. (Investigador), Silva, R. (Investigador), Costa, S. (Investigador), Silva, S. M. (Investigador), Marques, T. (Investigador), Almeida, A. (Investigador), Santos, M. (Bolseiro), Santos, P. (Investigador), Miguel, S. (Investigador), Mendes, K. (Investigador), Gomes, A. P. (Investigador), Henriques, J. M. P. (Investigador), Costa, H. A. F. P. (Investigador) & Ribeiro, P. (Investigador)
Fundação para a Ciência e a Tecnologia
1/01/20 → 31/12/24
Projeto

Citação

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abstract = "Many scientific publications that affect machine learning have set the basis for pattern recognition and symmetry. In this paper, we revisit the concept of “Mind-life continuity” published by the authors, testing the symmetry between cognitive and electrophoretic strata. We opted for machine learning to analyze and understand the total protein profile of neurotypical subjects acquired by capillary electrophoresis. Capillary electrophoresis permits a cost-wise solution but lacks modern proteomic techniques{\textquoteright} discriminative and quantification power. To compensate for this problem, we developed tools for better data visualization and exploration in this work. These tools permitted us to examine better the total protein profile of 92 young adults, from 19 to 25 years old, healthy university students at the University of Lisbon, with no serious, uncontrolled, or chronic diseases affecting the nervous system. As a result, we created a graphical user interface toolbox named MODeLING.Vis, which showed specific expected protein profiles present in saliva in our neurotypical sample. The developed toolbox permitted data exploration and hypothesis testing of the biomolecular data. In conclusion, this analysis offered the data mining of the acquired neuroproteomics data in the molecular weight range from 9.1 to 30 kDa. This molecular weight range, obtained by pattern recognition of our dataset, is characteristic of the small neuroimmune molecules and neuropeptides. Consequently, MODeLING.Vis offers a machine-learning solution for probing into the neurocognitive response.",

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AU - Martins, Jorge Emanuel

AU - D’Alimonte, Davide

AU - Simões, Joana

AU - Sousa, Sara

AU - Esteves, Eduardo

AU - Rosa, Nuno

AU - Correia, Maria José

AU - Simões, Mário

AU - Barros, Marlene

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AB - Many scientific publications that affect machine learning have set the basis for pattern recognition and symmetry. In this paper, we revisit the concept of “Mind-life continuity” published by the authors, testing the symmetry between cognitive and electrophoretic strata. We opted for machine learning to analyze and understand the total protein profile of neurotypical subjects acquired by capillary electrophoresis. Capillary electrophoresis permits a cost-wise solution but lacks modern proteomic techniques’ discriminative and quantification power. To compensate for this problem, we developed tools for better data visualization and exploration in this work. These tools permitted us to examine better the total protein profile of 92 young adults, from 19 to 25 years old, healthy university students at the University of Lisbon, with no serious, uncontrolled, or chronic diseases affecting the nervous system. As a result, we created a graphical user interface toolbox named MODeLING.Vis, which showed specific expected protein profiles present in saliva in our neurotypical sample. The developed toolbox permitted data exploration and hypothesis testing of the biomolecular data. In conclusion, this analysis offered the data mining of the acquired neuroproteomics data in the molecular weight range from 9.1 to 30 kDa. This molecular weight range, obtained by pattern recognition of our dataset, is characteristic of the small neuroimmune molecules and neuropeptides. Consequently, MODeLING.Vis offers a machine-learning solution for probing into the neurocognitive response.

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KW - Data-mining

KW - Data exploration

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MODeLING.Vis: a graphical user interface toolbox developed for machine learning and pattern recognition of biomolecular data

Resumo

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CIIS: Centro de Investigação Interdisciplinar em Saúde

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