Systematic Discovery of In Vivo Phosphorylation Networks

A Novel Phosphorylation Site-Kinase Network-Based Method for the Accurate Prediction of Kinase-Substrate Relationships

Minghui Wang
Tao Wang
Binghua Wang
Yu Liu
Ao Li

January 2017

Protein phosphorylation is catalyzed by kinases which regulate many aspects that control death, move...

Identification of AMPK Phosphorylation Sites Reveals a Network of Proteins Involved in Cell Invasion and Facilitates Large-Scale Substrate Prediction

Schaffer, Bethany E.
Levin, Rebecca S.
Hertz, Nicholas T.
Maures, Travis J.
Schoof, Michael L.
Hollstein, Pablo E.
Benayoun, Bérénice A.
Banko, Max R.
Shaw, Reuben J.
Shokat, Kevan M.
Brunet, Anne

November 2015

SummaryAMP-activated protein kinase (AMPK) is a central energy gauge that regulates metabolism and h...

Covalent Capture of Kinase Substrate Phosphopeptides for Analysis of Cellular Signaling Networks

Blethrow, Justin David

January 2008

Kinase-mediated protein phosphorylation regulates nearly every cellular signaling pathway. Protein ...

Systematic Discovery of In Vivo Phosphorylation Networks

Linding, Rune
Jensen, Lars Juhl
Ostheimer, Gerard J.
van Vugt, Marcel A.T.M.
Jørgensen, Claus
Miron, Ioana M.
Diella, Francesca
Colwill, Karen
Taylor, Lorne
Elder, Kelly
Metalnikov, Pavel
Nguyen, Vivian
Pasculescu, Adrian
Jin, Jing
Park, Jin Gyoon
Samson, Leona D.
Woodgett, James R.
Russell, Robert B.
Bork, Peer
Yaffe, Michael B.
Pawson, Tony

June 2007

SummaryProtein kinases control cellular decision processes by phosphorylating specific substrates. T...

NetworKIN: a resource for exploring cellular phosphorylation networks

Linding, R
Jensen, LJ
Pasculescu, A
Olhovsky, M
Colwill, K
Bork, P
Yaffe, MB
Pawson, T

January 2008

Protein kinases control cellular responses by phosphorylating specific substrates. Recent proteome-w...

Prediction of 492 human protein kinase substrate specificities

Safaei, Javad
Maňuch, Ján
Gupta, Arvind
Stacho, Ladislav
Pelech, Steven

October 2011

Background: Complex intracellular signaling networks monitor diverse environmental ...

PROCEEDINGS Open Access Prediction of 492 human protein kinase substrate

August 2016

Background: Complex intracellular signaling networks monitor diverse environmental inputs to evoke a...

Experimental and computational tools useful for (re)construction of dynamic kinase-substrate networks

Tan, CSH
Linding, R

December 2009

The explosion of site- and context-specific in vivo phosphorylation events presents a potentially ri...

Uncovering Phosphorylation-Based Specificities through Functional Interaction Networks

Wagih, Omar
Sugiyama, Naoyuki
Ishihama, Yasushi
Beltrao, Pedro

January 2016

Protein kinases are an important class of enzymes involved in the phosphorylation of their targets, ...

Functional Characterization of Co-Phosphorylation Networks

Ayati, Marzieh
Yılmaz, Serhan
Chance, Mark R.
Koyuturk, Mehmet

June 2022

Motivation: Protein phosphorylation is a ubiquitous regulatory mechanism that plays a central role i...

Systematic Analysis of Protein Phosphorylation Networks From Phosphoproteomic Data

Song, Chunxia
Ye, Mingliang
Liu, Zexian
Cheng, Han
Jiang, Xinning
Han, Guanghui
Zhou Songyang
Tan, Yexiong
Wang, Hongyang
Ren, Jian
Xue, Yu
Zou, Hanfa
邹汉法
薛宇
任健

October 2012

In eukaryotes, hundreds of protein kinases (PKs) specifically and precisely modify thousands of subs...

Accurate, high-coverage assignment of in vivo protein kinases to phosphosites from in vitro phosphoproteomic specificity data.

Brandon M Invergo

May 2022

Phosphoproteomic experiments routinely observe thousands of phosphorylation sites. To understand the...

Modular composition predicts kinase/substrate interactions

Tozeren Aydin
Liu Yichuan

June 2010

Abstract Background Phosphorylation events direct the flow of signals and metabolites along cellular...

Chemoproteomic tools for studying kinase signaling

Levin, Rebecca

January 2016

Protein kinases are key signaling proteins responsible for maintaining cellular homeostasis. These e...

Defining Human Tyrosine Kinase Phosphorylation Networks Using Yeast as an In Vivo Model Substrate

Corwin, T.
Woodsmith, J.
Apelt, F.
Fontaine, J.
Meierhofer, D.
Helmuth, J.
Grossmann, A.
Andrade-Navarro, M.
Ballif, B.
Stelzl, U.

August 2017

Systematic assessment of tyrosine kinase-substrate relationships is fundamental to a better understa...

A Novel Phosphorylation Site-Kinase Network-Based Method for the Accurate Prediction of Kinase-Substrate Relationships

Minghui Wang
Tao Wang
Binghua Wang
Yu Liu
Ao Li

January 2017

Protein phosphorylation is catalyzed by kinases which regulate many aspects that control death, move...

Identification of AMPK Phosphorylation Sites Reveals a Network of Proteins Involved in Cell Invasion and Facilitates Large-Scale Substrate Prediction

Schaffer, Bethany E.
Levin, Rebecca S.
Hertz, Nicholas T.
Maures, Travis J.
Schoof, Michael L.
Hollstein, Pablo E.
Benayoun, Bérénice A.
Banko, Max R.
Shaw, Reuben J.
Shokat, Kevan M.
Brunet, Anne

November 2015

SummaryAMP-activated protein kinase (AMPK) is a central energy gauge that regulates metabolism and h...

Covalent Capture of Kinase Substrate Phosphopeptides for Analysis of Cellular Signaling Networks

Blethrow, Justin David

January 2008

Kinase-mediated protein phosphorylation regulates nearly every cellular signaling pathway. Protein ...

Systematic Discovery of In Vivo Phosphorylation Networks

Linding, Rune
Jensen, Lars Juhl
Ostheimer, Gerard J.
van Vugt, Marcel A.T.M.
Jørgensen, Claus
Miron, Ioana M.
Diella, Francesca
Colwill, Karen
Taylor, Lorne
Elder, Kelly
Metalnikov, Pavel
Nguyen, Vivian
Pasculescu, Adrian
Jin, Jing
Park, Jin Gyoon
Samson, Leona D.
Woodgett, James R.
Russell, Robert B.
Bork, Peer
Yaffe, Michael B.
Pawson, Tony

June 2007

SummaryProtein kinases control cellular decision processes by phosphorylating specific substrates. T...

NetworKIN: a resource for exploring cellular phosphorylation networks

Linding, R
Jensen, LJ
Pasculescu, A
Olhovsky, M
Colwill, K
Bork, P
Yaffe, MB
Pawson, T

January 2008

Protein kinases control cellular responses by phosphorylating specific substrates. Recent proteome-w...

Prediction of 492 human protein kinase substrate specificities

Safaei, Javad
Maňuch, Ján
Gupta, Arvind
Stacho, Ladislav
Pelech, Steven

October 2011

Background: Complex intracellular signaling networks monitor diverse environmental ...

PROCEEDINGS Open Access Prediction of 492 human protein kinase substrate

August 2016

Background: Complex intracellular signaling networks monitor diverse environmental inputs to evoke a...

Experimental and computational tools useful for (re)construction of dynamic kinase-substrate networks

Tan, CSH
Linding, R

December 2009

The explosion of site- and context-specific in vivo phosphorylation events presents a potentially ri...

Uncovering Phosphorylation-Based Specificities through Functional Interaction Networks

Wagih, Omar
Sugiyama, Naoyuki
Ishihama, Yasushi
Beltrao, Pedro

January 2016

Protein kinases are an important class of enzymes involved in the phosphorylation of their targets, ...

Functional Characterization of Co-Phosphorylation Networks

Ayati, Marzieh
Yılmaz, Serhan
Chance, Mark R.
Koyuturk, Mehmet

June 2022

Motivation: Protein phosphorylation is a ubiquitous regulatory mechanism that plays a central role i...

Systematic Analysis of Protein Phosphorylation Networks From Phosphoproteomic Data

Song, Chunxia
Ye, Mingliang
Liu, Zexian
Cheng, Han
Jiang, Xinning
Han, Guanghui
Zhou Songyang
Tan, Yexiong
Wang, Hongyang
Ren, Jian
Xue, Yu
Zou, Hanfa
邹汉法
薛宇
任健

October 2012

In eukaryotes, hundreds of protein kinases (PKs) specifically and precisely modify thousands of subs...

Accurate, high-coverage assignment of in vivo protein kinases to phosphosites from in vitro phosphoproteomic specificity data.

Brandon M Invergo

May 2022

Phosphoproteomic experiments routinely observe thousands of phosphorylation sites. To understand the...

Modular composition predicts kinase/substrate interactions

Tozeren Aydin
Liu Yichuan

June 2010

Abstract Background Phosphorylation events direct the flow of signals and metabolites along cellular...

Chemoproteomic tools for studying kinase signaling

Levin, Rebecca

January 2016

Protein kinases are key signaling proteins responsible for maintaining cellular homeostasis. These e...

Defining Human Tyrosine Kinase Phosphorylation Networks Using Yeast as an In Vivo Model Substrate

Corwin, T.
Woodsmith, J.
Apelt, F.
Fontaine, J.
Meierhofer, D.
Helmuth, J.
Grossmann, A.
Andrade-Navarro, M.
Ballif, B.
Stelzl, U.

August 2017

Systematic assessment of tyrosine kinase-substrate relationships is fundamental to a better understa...

A Novel Phosphorylation Site-Kinase Network-Based Method for the Accurate Prediction of Kinase-Substrate Relationships

Minghui Wang
Tao Wang
Binghua Wang
Yu Liu
Ao Li

January 2017

Protein phosphorylation is catalyzed by kinases which regulate many aspects that control death, move...

Identification of AMPK Phosphorylation Sites Reveals a Network of Proteins Involved in Cell Invasion and Facilitates Large-Scale Substrate Prediction

Schaffer, Bethany E.
Levin, Rebecca S.
Hertz, Nicholas T.
Maures, Travis J.
Schoof, Michael L.
Hollstein, Pablo E.
Benayoun, Bérénice A.
Banko, Max R.
Shaw, Reuben J.
Shokat, Kevan M.
Brunet, Anne

November 2015

SummaryAMP-activated protein kinase (AMPK) is a central energy gauge that regulates metabolism and h...

Covalent Capture of Kinase Substrate Phosphopeptides for Analysis of Cellular Signaling Networks

Blethrow, Justin David

January 2008

Kinase-mediated protein phosphorylation regulates nearly every cellular signaling pathway. Protein ...

Systematic Discovery of In Vivo Phosphorylation Networks

Abstract

Extracted data

Systematic Discovery of In Vivo Phosphorylation Networks

Abstract

Extracted data

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