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Papers by luis donato serrano

Research paper thumbnail of Prediction of Protein-Protein Interaction Based on Structure

Research paper thumbnail of Complexities in Quantitative Systems Analysis of Signaling Networks

Computational Systems Biology, 2014

Research paper thumbnail of Comparative genomics and disorder prediction identify biologically relevant SH3 protein interactions

Research paper thumbnail of Association Rate Constants of Ras-Effector Interactions Are Evolutionarily Conserved

PLoS Computational Biology, 2008

Research paper thumbnail of Comparative Genomics and Disorder Prediction Identify Biologically Relevant SH3 Protein Interactions

PLoS Computational Biology, 2005

Research paper thumbnail of Specificity and Evolvability in Eukaryotic Protein Interaction Networks

PLoS Computational Biology, 2007

Research paper thumbnail of Engineering Gene Networks to Emulate Drosophila Embryonic Pattern Formation

Research paper thumbnail of A quantitative systems biology study on a model bacterium

Research paper thumbnail of Domains galore

Nature Cell Biology, 2005

Research paper thumbnail of Towards Cellular Systems in 4D

Cell, 2005

... Towards Cellular Systems in 4D. Autores: Luis Serrano, Peer Bork; Localización: Cell, ISSN 00... more ... Towards Cellular Systems in 4D. Autores: Luis Serrano, Peer Bork; Localización: Cell, ISSN 0092-8674, Vol. 121, Nº. 4, 2005 , págs. 507-509. Fundación Dialnet. Acceso de usuarios registrados. Acceso de usuarios registrados Usuario. Contraseña. Entrar. Mi Dialnet. ...

Research paper thumbnail of Engineering Signal Transduction Pathways

Cell, 2010

Cells respond to their environment by sensing signals and translating them into changes in gene e... more Cells respond to their environment by sensing signals and translating them into changes in gene expression. In recent years, synthetic networks have been designed in both prokaryotic and eukaryotic systems to create new functionalities and for specific applications. In this review, we discuss the challenges associated with engineering signal transduction pathways. Furthermore, we address advantages and disadvantages of engineering signaling pathways in prokaryotic and eukaryotic cells, highlighting recent examples, and discuss how progress in synthetic biology might impact biotechnology and biomedicine.

Research paper thumbnail of Structural and functional domains of tubulin

Research paper thumbnail of ADMINISTRACIÓN AVANZADA DE FLOTILLAS DE AUTOTRANSPORTE CON OPENERP

Research paper thumbnail of Prediction of Protein-Protein Interaction Based on Structure

Research paper thumbnail of Complexities in Quantitative Systems Analysis of Signaling Networks

Computational Systems Biology, 2014

Research paper thumbnail of Comparative genomics and disorder prediction identify biologically relevant SH3 protein interactions

Research paper thumbnail of Association Rate Constants of Ras-Effector Interactions Are Evolutionarily Conserved

PLoS Computational Biology, 2008

Research paper thumbnail of Comparative Genomics and Disorder Prediction Identify Biologically Relevant SH3 Protein Interactions

PLoS Computational Biology, 2005

Research paper thumbnail of Specificity and Evolvability in Eukaryotic Protein Interaction Networks

PLoS Computational Biology, 2007

Research paper thumbnail of Engineering Gene Networks to Emulate Drosophila Embryonic Pattern Formation

Research paper thumbnail of A quantitative systems biology study on a model bacterium

Research paper thumbnail of Domains galore

Nature Cell Biology, 2005

Research paper thumbnail of Towards Cellular Systems in 4D

Cell, 2005

... Towards Cellular Systems in 4D. Autores: Luis Serrano, Peer Bork; Localización: Cell, ISSN 00... more ... Towards Cellular Systems in 4D. Autores: Luis Serrano, Peer Bork; Localización: Cell, ISSN 0092-8674, Vol. 121, Nº. 4, 2005 , págs. 507-509. Fundación Dialnet. Acceso de usuarios registrados. Acceso de usuarios registrados Usuario. Contraseña. Entrar. Mi Dialnet. ...

Research paper thumbnail of Engineering Signal Transduction Pathways

Cell, 2010

Cells respond to their environment by sensing signals and translating them into changes in gene e... more Cells respond to their environment by sensing signals and translating them into changes in gene expression. In recent years, synthetic networks have been designed in both prokaryotic and eukaryotic systems to create new functionalities and for specific applications. In this review, we discuss the challenges associated with engineering signal transduction pathways. Furthermore, we address advantages and disadvantages of engineering signaling pathways in prokaryotic and eukaryotic cells, highlighting recent examples, and discuss how progress in synthetic biology might impact biotechnology and biomedicine.

Research paper thumbnail of Structural and functional domains of tubulin

Research paper thumbnail of ADMINISTRACIÓN AVANZADA DE FLOTILLAS DE AUTOTRANSPORTE CON OPENERP

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