Precisely measured protein lifetimes in the mouse brain reveal differences across tissues and subcellular fractions.

Stable isotope metabolic labeling suggests differential turnover of the DPYSL protein family.

Turck, C.
Webhofer, C.
Nussbaumer, M.
Teplytska, L.
Chen, A.
Maccarrone, G.
Filiou, M.

January 2016

PURPOSE: In this work, we discuss how in vivo (15) N metabolic labeling in combination with MS simul...

Stable Isotope Labeling Tandem Mass Spectrometry (SILT) to Quantify Protein Production and Clearance Rates

Bateman, Randall J.
Munsell, Ling Y.
Chen, Xianghong
Holtzman, David M.
Yarasheski, Kevin E.

June 2007

In all biological systems, protein amount is a function of the rate of production and clearance. The...

The codon sequences predict protein lifetimes and other parameters of the protein life cycle in the mouse brain

Mandad, Sunit
Rahman, Raza-Ur
Centeno, Tonatiuh Pena
Vidal, Ramon O.
Wildhagen, Hanna
Rammner, Burkhard
Keihani, Sarva
Opazo, Felipe
Urban, Inga
Ischebeck, Till
Kirli, Koray
Benito, Eva
Fischer, André
Yousefi, Roya Y.
Dennerlein, Sven
Rehling, Peter
Feussner, Ivo
Urlaub, Henning
Bonn, Stefan
Rizzoli, Silvio O.
Fornasiero, Eugenio F.

January 2018

The homeostasis of the proteome depends on the tight regulation of the mRNA and protein abundances, ...

Precisely measured protein lifetimes in the mouse brain reveal differences across tissues and subcellular fractions

Fornasiero, Eugenio F.
Mandad, Sunit
Wildhagen, Hanna
Alevra, Mihai
Rammner, Burkhard
Keihani, Sarva
Opazo, Felipe
Urban, Inga
Ischebeck, Till
Sakib, M. Sadman
Fard, Maryam K.
Kirli, Koray
Centeno, Tonatiuh Pena
Vidal, Ramon O.
Rahman, Raza-Ur
Benito, Eva
Fischer, André
Dennerlein, Sven
Rehling, Peter
Feussner, Ivo
Bonn, Stefan
Simons, Mikael
Urlaub, Henning
Rizzoli, Silvio O.

January 2018

The turnover of brain proteins is critical for organism survival, and its perturbations are linked t...

A mass spectrometry workflow for measuring protein turnover rates in vivo.

Alevra, M.
Mandad, S.
Ischebeck, T.
Urlaub, H.
Rizzoli, S.
Fornasiero, E.

November 2019

Proteins are continually produced and degraded, to avoid the accumulation of old or damaged molecule...

Analysis of Individual Protein Turnover in Live Animals on a Proteome-Wide Scale

Reckow, S.
Webhofer, C.

April 2014

Classical quantitative proteomics studies focus on the relative or absolute concentration of protein...

Using <sup>15</sup>N-Metabolic Labeling for Quantitative Proteomic Analyses

Maccarrone, G.
Chen, A.
Filiou, M.

January 2017

Quantitative proteomics has benefited from the application of stable isotope labeling-based approach...

Harmonizing labeling and analytical strategies to obtain protein turnover rates in intact adult animals

Hammond, Dean
Simpson, Deborah
Franco, Catarina
Muelas, Marina Wright
Waters, John
Ludwig, RW
Prescott, Mark
Hurst, Jane
Beynon, Robert
Lau, Edward

January 2021

Changes in the abundance of individual proteins in the proteome can be elicited by modulation of pro...

Harmonizing Labeling and Analytical Strategies to Obtain Protein Turnover Rates in Intact Adult Animals

Hammond, Dean E
Simpson, Deborah M
Franco, Catarina
Muelas, Marina Wright
Waters, John
Ludwig, RW
Prescott, Mark C
Hurst, Jane L
Beynon, Robert J
Lau, Edward

January 2022

Changes in the abundance of individual proteins in the proteome can be elicited by modulation of pro...

Calculation of the protein turnover rate using the number of incorporated 2H atoms and proteomics analysis of a single labeled sample

Ilchenko S.
Haddad A.
Sadana P.
Recchia F. A.
Sadygov R.
Kasumov T.

January 2019

Rate constant estimation with heavy water requires a long-term experiment with data collection at mu...

Multidimensional Dynamics of the Proteome in the Neurodegenerative and Aging Mammalian Brain

Andrews, Byron
Murphy, Alan E.
Stofella, Michele
Maslen, Sarah
Almeida-Souza, Leonardo
Skehel, J. Mark
Skene, Nathan G.
Sobott, Frank
Frank, René A.W.

February 2022

The amount of any given protein in the brain is determined by the rates of its synthesis and destruc...

Proteome Turnover in Mouse Aging: In Vivo Studies by Stable Isotope Mass Spectrometry

Basisty, Natan

October 2015

Thesis (Ph.D.)--University of Washington, 2015-10Introduction: Maintenance of proper protein homeost...

Accurate quantification of more than 4,000 mouse tissue proteins reveals minimal proteome changes during aging. Mol. Cell Proteomics

Dirk M. Walther
Matthias Mann

January 2011

The biological process of aging is believed to be the result of an accumulation of cellular damage t...

A brain atlas of synapse protein lifetime across the mouse lifespan

Bulovaite, Edita
Qiu, Zhen
Kratschke, Maximilian
Zgraj, Adrianna
Fricker, David G.
Tuck, Eleanor J.
Gokhale, Ragini
Koniaris, Babis
Jami, Shekib A.
Merino-Serrais, Paula
Husi, Elodie
Mendive-Tapia, Lorena
Vendrell, Marc
O’Dell, Thomas J.
DeFelipe, Javier
Komiyama, Noboru H.
Holtmaat, Anthony
Fransén, Erik
Grant, Seth G.N.

December 2022

The lifetime of proteins in synapses is important for their signaling, maintenance, and remodeling, ...

Assessment of Serum Protein Dynamics by Native SILAC Flooding (SILflood)

Hendrik Nolte (1718749)
Soraya Hölper (1718752)
Matthias Selbach (317683)
Thomas Braun (269597)
Marcus Krüger (1718746)

November 2014

Turnover of blood serum proteins is a vital function in mammals, but technical challenges have thus ...

Stable isotope metabolic labeling suggests differential turnover of the DPYSL protein family.

Turck, C.
Webhofer, C.
Nussbaumer, M.
Teplytska, L.
Chen, A.
Maccarrone, G.
Filiou, M.

January 2016

PURPOSE: In this work, we discuss how in vivo (15) N metabolic labeling in combination with MS simul...

Stable Isotope Labeling Tandem Mass Spectrometry (SILT) to Quantify Protein Production and Clearance Rates

Bateman, Randall J.
Munsell, Ling Y.
Chen, Xianghong
Holtzman, David M.
Yarasheski, Kevin E.

June 2007

In all biological systems, protein amount is a function of the rate of production and clearance. The...

The codon sequences predict protein lifetimes and other parameters of the protein life cycle in the mouse brain

Mandad, Sunit
Rahman, Raza-Ur
Centeno, Tonatiuh Pena
Vidal, Ramon O.
Wildhagen, Hanna
Rammner, Burkhard
Keihani, Sarva
Opazo, Felipe
Urban, Inga
Ischebeck, Till
Kirli, Koray
Benito, Eva
Fischer, André
Yousefi, Roya Y.
Dennerlein, Sven
Rehling, Peter
Feussner, Ivo
Urlaub, Henning
Bonn, Stefan
Rizzoli, Silvio O.
Fornasiero, Eugenio F.

January 2018

The homeostasis of the proteome depends on the tight regulation of the mRNA and protein abundances, ...

Precisely measured protein lifetimes in the mouse brain reveal differences across tissues and subcellular fractions

Fornasiero, Eugenio F.
Mandad, Sunit
Wildhagen, Hanna
Alevra, Mihai
Rammner, Burkhard
Keihani, Sarva
Opazo, Felipe
Urban, Inga
Ischebeck, Till
Sakib, M. Sadman
Fard, Maryam K.
Kirli, Koray
Centeno, Tonatiuh Pena
Vidal, Ramon O.
Rahman, Raza-Ur
Benito, Eva
Fischer, André
Dennerlein, Sven
Rehling, Peter
Feussner, Ivo
Bonn, Stefan
Simons, Mikael
Urlaub, Henning
Rizzoli, Silvio O.

January 2018

The turnover of brain proteins is critical for organism survival, and its perturbations are linked t...

A mass spectrometry workflow for measuring protein turnover rates in vivo.

Alevra, M.
Mandad, S.
Ischebeck, T.
Urlaub, H.
Rizzoli, S.
Fornasiero, E.

November 2019

Proteins are continually produced and degraded, to avoid the accumulation of old or damaged molecule...

Analysis of Individual Protein Turnover in Live Animals on a Proteome-Wide Scale

Reckow, S.
Webhofer, C.

April 2014

Classical quantitative proteomics studies focus on the relative or absolute concentration of protein...

Using <sup>15</sup>N-Metabolic Labeling for Quantitative Proteomic Analyses

Maccarrone, G.
Chen, A.
Filiou, M.

January 2017

Quantitative proteomics has benefited from the application of stable isotope labeling-based approach...

Harmonizing labeling and analytical strategies to obtain protein turnover rates in intact adult animals

Hammond, Dean
Simpson, Deborah
Franco, Catarina
Muelas, Marina Wright
Waters, John
Ludwig, RW
Prescott, Mark
Hurst, Jane
Beynon, Robert
Lau, Edward

January 2021

Changes in the abundance of individual proteins in the proteome can be elicited by modulation of pro...

Harmonizing Labeling and Analytical Strategies to Obtain Protein Turnover Rates in Intact Adult Animals

Hammond, Dean E
Simpson, Deborah M
Franco, Catarina
Muelas, Marina Wright
Waters, John
Ludwig, RW
Prescott, Mark C
Hurst, Jane L
Beynon, Robert J
Lau, Edward

January 2022

Changes in the abundance of individual proteins in the proteome can be elicited by modulation of pro...

Calculation of the protein turnover rate using the number of incorporated 2H atoms and proteomics analysis of a single labeled sample

Ilchenko S.
Haddad A.
Sadana P.
Recchia F. A.
Sadygov R.
Kasumov T.

January 2019

Rate constant estimation with heavy water requires a long-term experiment with data collection at mu...

Multidimensional Dynamics of the Proteome in the Neurodegenerative and Aging Mammalian Brain

Andrews, Byron
Murphy, Alan E.
Stofella, Michele
Maslen, Sarah
Almeida-Souza, Leonardo
Skehel, J. Mark
Skene, Nathan G.
Sobott, Frank
Frank, René A.W.

February 2022

The amount of any given protein in the brain is determined by the rates of its synthesis and destruc...

Proteome Turnover in Mouse Aging: In Vivo Studies by Stable Isotope Mass Spectrometry

Basisty, Natan

October 2015

Thesis (Ph.D.)--University of Washington, 2015-10Introduction: Maintenance of proper protein homeost...

Accurate quantification of more than 4,000 mouse tissue proteins reveals minimal proteome changes during aging. Mol. Cell Proteomics

Dirk M. Walther
Matthias Mann

January 2011

The biological process of aging is believed to be the result of an accumulation of cellular damage t...

A brain atlas of synapse protein lifetime across the mouse lifespan

Bulovaite, Edita
Qiu, Zhen
Kratschke, Maximilian
Zgraj, Adrianna
Fricker, David G.
Tuck, Eleanor J.
Gokhale, Ragini
Koniaris, Babis
Jami, Shekib A.
Merino-Serrais, Paula
Husi, Elodie
Mendive-Tapia, Lorena
Vendrell, Marc
O’Dell, Thomas J.
DeFelipe, Javier
Komiyama, Noboru H.
Holtmaat, Anthony
Fransén, Erik
Grant, Seth G.N.

December 2022

The lifetime of proteins in synapses is important for their signaling, maintenance, and remodeling, ...

Assessment of Serum Protein Dynamics by Native SILAC Flooding (SILflood)

Hendrik Nolte (1718749)
Soraya Hölper (1718752)
Matthias Selbach (317683)
Thomas Braun (269597)
Marcus Krüger (1718746)

November 2014

Turnover of blood serum proteins is a vital function in mammals, but technical challenges have thus ...

Stable isotope metabolic labeling suggests differential turnover of the DPYSL protein family.

Turck, C.
Webhofer, C.
Nussbaumer, M.
Teplytska, L.
Chen, A.
Maccarrone, G.
Filiou, M.

January 2016

PURPOSE: In this work, we discuss how in vivo (15) N metabolic labeling in combination with MS simul...

Stable Isotope Labeling Tandem Mass Spectrometry (SILT) to Quantify Protein Production and Clearance Rates

Bateman, Randall J.
Munsell, Ling Y.
Chen, Xianghong
Holtzman, David M.
Yarasheski, Kevin E.

June 2007

In all biological systems, protein amount is a function of the rate of production and clearance. The...

The codon sequences predict protein lifetimes and other parameters of the protein life cycle in the mouse brain

Mandad, Sunit
Rahman, Raza-Ur
Centeno, Tonatiuh Pena
Vidal, Ramon O.
Wildhagen, Hanna
Rammner, Burkhard
Keihani, Sarva
Opazo, Felipe
Urban, Inga
Ischebeck, Till
Kirli, Koray
Benito, Eva
Fischer, André
Yousefi, Roya Y.
Dennerlein, Sven
Rehling, Peter
Feussner, Ivo
Urlaub, Henning
Bonn, Stefan
Rizzoli, Silvio O.
Fornasiero, Eugenio F.

January 2018

The homeostasis of the proteome depends on the tight regulation of the mRNA and protein abundances, ...

Precisely measured protein lifetimes in the mouse brain reveal differences across tissues and subcellular fractions.

Abstract

Extracted data

Precisely measured protein lifetimes in the mouse brain reveal differences across tissues and subcellular fractions.

Abstract

Extracted data

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