Learning from heterogeneous data sources: an application in spatial proteomics

Dynamic Organellar Maps for Spatial Proteomics.

Itzhak, D.
Schessner, J.
Borner, G.

January 2018

Eukaryotic cells are highly compartmentalized and protein subcellular localization critically influe...

Spatial proteomics: Combining experimental and annotation data to predict protein sub-cellular localisation

Laurent Gatto (637959)

July 2015

<p>Slides presented at the European Bioconductor developer meeting in Heidelberg, on the 13 Jan 2015...

Probabilistic modelling of protein sub-cellular localisation

Gatto, Laurent

September 2018

In biology, localisation is function - understanding the sub-cellular localisation of proteins is pa...

Learning from heterogeneous data sources: an application in spatial proteomics

Lisa Breckels (834059)
Laurent Gatto (637959)

December 2015

<p>We describe an application of transfer learning, where we combine experimental mass spectrometry-...

Learning from Heterogeneous Data Sources: An Application in Spatial Proteomics

Lisa M. Breckels (1307337)
Sean B. Holden (3170361)
David Wojnar (3170355)
Claire M. Mulvey (3170352)
Andy Christoforou (1784647)
Arnoud Groen (2509081)
Matthew W. B. Trotter (3170358)
Oliver Kohlbacher (11422)
Kathryn S. Lilley (73966)
Laurent Gatto (1307346)

May 2016

<div><p>Sub-cellular localisation of proteins is an essential post-translational regulatory mechanis...

A Bioconductor workflow for processing and analysing spatial proteomics data

Breckels, Lisa
Mulvey, Claire
Lilley, Kathryn
Gatto, Laurent

December 2016

Spatial proteomics is the systematic study of protein sub-cellular localisation. In this workflow, w...

Contents

Lisa M. Breckels
Laurent Gatto

January 2015

This vignette illustrates the application of a transfer learning algorithm to assign proteins to sub...

A foundation for reliable spatial proteomics data analysis.

Gatto, Laurent
Breckels, Lisa M
Burger, Thomas
Nightingale, Daniel J H
Groen, Arnoud J
Campbell, Callum
Nikolovski, Nino
Mulvey, Claire M
Christoforou, Andy
Ferro, Myriam
Lilley, Kathryn S

July 2014

International audienceQuantitative mass-spectrometry-based spatial proteomics involves elaborate, ex...

A state-of-the-art machine learning pipeline for the analysis of spatial proteomics data

Laurent Gatto (637959)

October 2014

<p>Organelle proteomics, or spatial proteomics, is the systematic study of protein sub-cellular loca...

A Foundation for Reliable Spatial Proteomics Data Analysis

Gatto, L.
Breckels, L. M.
Burger, T.
Nightingale, D. J. H.
Groen, A. J.
Campbell, C.
Nikolovski, N.
Mulvey, C. M.
Christoforou, A.
Ferro, M.
Lilley, K. S.

May 2014

Quantitative mass spectrometry based spatial proteomics involves elaborate, expensive and time consu...

Data integration in proteomics

Laurent Gatto (637959)

March 2016

Keynote lecture for the Introduction to Integrative Omics course at the EMBL-EBI on 8 March 2016. Tw...

Mass-spectrometry based spatial proteomics data analysis using pRoloc and pRolocdata.

Gatto, Laurent
Breckels, Lisa M
Wieczorek, Samuel
Burger, Thomas
Lilley, Kathryn S

January 2014

International audienceMOTIVATION: Experimental spatial proteomics, i.e the high-throughput assignmen...

A Bioconductor workflow for the Bayesian analysis of spatial proteomics

Crook, Oliver M.
Breckels, Lisa M.
Lilley, Kathryn S.
Kirk, Paul D.W.
Gatto, Laurent

January 2019

Knowledge of the subcellular location of a protein gives valuable insight into its function. The fie...

Spatial proteomics: a powerful discovery tool for cell biology

Lundberg, E.
Borner, G.

January 2019

Protein subcellular localization is tightly controlled and intimately linked to protein function in ...

A Bioconductor workflow for processing and analysing spatial proteomics data [version 2; referees: 2 approved]

Lisa M. Breckels
Claire M. Mulvey
Kathryn S. Lilley
Laurent Gatto

July 2018

Spatial proteomics is the systematic study of protein sub-cellular localisation. In this workflow, w...

Dynamic Organellar Maps for Spatial Proteomics.

Itzhak, D.
Schessner, J.
Borner, G.

January 2018

Eukaryotic cells are highly compartmentalized and protein subcellular localization critically influe...

Spatial proteomics: Combining experimental and annotation data to predict protein sub-cellular localisation

Laurent Gatto (637959)

July 2015

<p>Slides presented at the European Bioconductor developer meeting in Heidelberg, on the 13 Jan 2015...

Probabilistic modelling of protein sub-cellular localisation

Gatto, Laurent

September 2018

In biology, localisation is function - understanding the sub-cellular localisation of proteins is pa...

Learning from heterogeneous data sources: an application in spatial proteomics

Lisa Breckels (834059)
Laurent Gatto (637959)

December 2015

<p>We describe an application of transfer learning, where we combine experimental mass spectrometry-...

Learning from Heterogeneous Data Sources: An Application in Spatial Proteomics

Lisa M. Breckels (1307337)
Sean B. Holden (3170361)
David Wojnar (3170355)
Claire M. Mulvey (3170352)
Andy Christoforou (1784647)
Arnoud Groen (2509081)
Matthew W. B. Trotter (3170358)
Oliver Kohlbacher (11422)
Kathryn S. Lilley (73966)
Laurent Gatto (1307346)

May 2016

<div><p>Sub-cellular localisation of proteins is an essential post-translational regulatory mechanis...

A Bioconductor workflow for processing and analysing spatial proteomics data

Breckels, Lisa
Mulvey, Claire
Lilley, Kathryn
Gatto, Laurent

December 2016

Spatial proteomics is the systematic study of protein sub-cellular localisation. In this workflow, w...

Contents

Lisa M. Breckels
Laurent Gatto

January 2015

This vignette illustrates the application of a transfer learning algorithm to assign proteins to sub...

A foundation for reliable spatial proteomics data analysis.

Gatto, Laurent
Breckels, Lisa M
Burger, Thomas
Nightingale, Daniel J H
Groen, Arnoud J
Campbell, Callum
Nikolovski, Nino
Mulvey, Claire M
Christoforou, Andy
Ferro, Myriam
Lilley, Kathryn S

July 2014

International audienceQuantitative mass-spectrometry-based spatial proteomics involves elaborate, ex...

A state-of-the-art machine learning pipeline for the analysis of spatial proteomics data

Laurent Gatto (637959)

October 2014

<p>Organelle proteomics, or spatial proteomics, is the systematic study of protein sub-cellular loca...

A Foundation for Reliable Spatial Proteomics Data Analysis

Gatto, L.
Breckels, L. M.
Burger, T.
Nightingale, D. J. H.
Groen, A. J.
Campbell, C.
Nikolovski, N.
Mulvey, C. M.
Christoforou, A.
Ferro, M.
Lilley, K. S.

May 2014

Quantitative mass spectrometry based spatial proteomics involves elaborate, expensive and time consu...

Data integration in proteomics

Laurent Gatto (637959)

March 2016

Keynote lecture for the Introduction to Integrative Omics course at the EMBL-EBI on 8 March 2016. Tw...

Mass-spectrometry based spatial proteomics data analysis using pRoloc and pRolocdata.

Gatto, Laurent
Breckels, Lisa M
Wieczorek, Samuel
Burger, Thomas
Lilley, Kathryn S

January 2014

International audienceMOTIVATION: Experimental spatial proteomics, i.e the high-throughput assignmen...

A Bioconductor workflow for the Bayesian analysis of spatial proteomics

Crook, Oliver M.
Breckels, Lisa M.
Lilley, Kathryn S.
Kirk, Paul D.W.
Gatto, Laurent

January 2019

Knowledge of the subcellular location of a protein gives valuable insight into its function. The fie...

Spatial proteomics: a powerful discovery tool for cell biology

Lundberg, E.
Borner, G.

January 2019

Protein subcellular localization is tightly controlled and intimately linked to protein function in ...

A Bioconductor workflow for processing and analysing spatial proteomics data [version 2; referees: 2 approved]

Lisa M. Breckels
Claire M. Mulvey
Kathryn S. Lilley
Laurent Gatto

July 2018

Spatial proteomics is the systematic study of protein sub-cellular localisation. In this workflow, w...

Dynamic Organellar Maps for Spatial Proteomics.

Itzhak, D.
Schessner, J.
Borner, G.

January 2018

Eukaryotic cells are highly compartmentalized and protein subcellular localization critically influe...

Spatial proteomics: Combining experimental and annotation data to predict protein sub-cellular localisation

Laurent Gatto (637959)

July 2015

<p>Slides presented at the European Bioconductor developer meeting in Heidelberg, on the 13 Jan 2015...

Probabilistic modelling of protein sub-cellular localisation

Gatto, Laurent

September 2018

In biology, localisation is function - understanding the sub-cellular localisation of proteins is pa...

Learning from heterogeneous data sources: an application in spatial proteomics

Abstract

Extracted data

Learning from heterogeneous data sources: an application in spatial proteomics

Abstract

Extracted data

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