Tunable reagents for multi-functional bioconjugation: reversible or permanent chemical modification of proteins and peptides by control of maleimide hydrolysis

Dichloro Butenediamides as Irreversible Site-Selective Protein Conjugation Reagent.

Laserna, Victor
Abegg, Daniel
Afonso, Cláudia F
Martin, Esther M
Adibekian, Alexander
Ravn, Peter
Corzana, Francisco
Lopes Bernardes, Goncalo

October 2021

We describe maleic-acid derivatives as robust cysteine-selective reagents for protein labelling with...

Dichloro Butenediamides as Irreversible Site‐Selective Protein Conjugation Reagent

Laserna, Victor
Abegg, Daniel
Afonso, Cláudia F.
Martin, Esther M.
Adibekian, Alexander
Ravn, Peter
Corzana, Francisco
Bernardes, Gonçalo J. L.

September 2021

Abstract: We describe maleic‐acid derivatives as robust cysteine‐selective reagents for protein labe...

Functional bridging of protein disulfide bonds with maleimides

Schumacher, FF

January 2013

The application of chemical methods to biological systems has led to great advances in all life scie...

Tunable reagents for multi-functional bioconjugation: reversible or permanent chemical modification of proteins and peptides by control of maleimide hydrolysis

Ryan, C.P.
Smith, M.E.B.
Schumacher, F.F.
Grohmann, D.
Papaioannou, D.
Waksman, Gabriel
Werner, F.
Baker, J.R.
Caddick, S.

January 2011

Controlling maleimide hydrolysis allows the modular construction of bromomaleimide-mediated bioconju...

Tunable reagents for multi-functional bioconjugation: reversible or permanent chemical modification of proteins and peptides by control of maleimide hydrolysis

Ryan, CP
Smith, MEB
Schumacher, FF
Grohmann, D
Papaioannou, D
Waksman, G
Werner, F
Baker, JR
Caddick, S

April 2011

Controlling maleimide hydrolysis allows the modular construction of bromomaleimide-mediated bioconju...

Covalent Modification of Biomolecules through Maleimide-Based Labeling Strategies

Renault, Kévin
Fredy, J.W.
Renard, Pierre-Yves
Sabot, Cyrille

January 2018

International audienceSince their first use in bioconjugation more than 50 years ago, maleimides hav...

Covalent Modification of Biomolecules through Maleimide-Based Labeling Strategies

Renault, Kévin
Fredy, J.W.
Renard, Pierre-Yves
Sabot, Cyrille

January 2018

International audienceSince their first use in bioconjugation more than 50 years ago, maleimides hav...

Covalent Modification of Biomolecules through Maleimide-Based Labeling Strategies

Renault, Kévin
Fredy, J.W.
Renard, Pierre-Yves
Sabot, Cyrille

January 2018

International audienceSince their first use in bioconjugation more than 50 years ago, maleimides hav...

Functional bridging of protein disulfide bonds with maleimides

Schumacher, FF

January 2013

The application of chemical methods to biological systems has led to great advances in all life scie...

Reversible protein affinity-labelling using bromomaleimide-based reagents

Nathani, RI
Chudasama, V
Ryan, CP
Moody, PR
Morgan, RE
Fitzmaurice, RJ
Smith, ME
Baker, JR
Caddick, S

April 2013

Reversible protein biotinylation is readily affected via conjugation with a bromomaleimide-based rea...

Protein modification, bioconjugation, and disulfide bridging using Bromomaleimides

Smith, M.E.B.
Schumacher, F.F.
Ryan, C.P.
Tedaldi, L.M.
Papaioannou, D.
Waksman, Gabriel
Caddick, S.
Baker, J.R.

February 2010

The maleimide motif is widely used for the selective chemical modification of cysteine residues in p...

Protein Modification, Bioconjugation, and Disulfide Bridging Using Bromomaleimides

Mark E. B. Smith (1268898)
Felix F. Schumacher (1268895)
Chris P. Ryan (1268889)
Lauren M. Tedaldi (1268886)
Danai Papaioannou (1268883)
Gabriel Waksman (29345)
Stephen Caddick (1268892)
James R. Baker (52496)

December 2015

The maleimide motif is widely used for the selective chemical modification of cysteine residues in p...

In Situ Maleimide Bridging of Disulfides and a New Approach to Protein PEGylation

Felix F. Schumacher (1268895)
Muriel Nobles (1275495)
Chris P. Ryan (1268889)
Mark E. B. Smith (1268898)
Andrew Tinker (477693)
Stephen Caddick (1268892)
James R. Baker (52496)

December 2015

The introduction of non-natural entities into proteins by chemical modification has numerous applica...

Functional bridging of protein disulfide bonds with maleimides

Schumacher, FF

January 2013

The application of chemical methods to biological systems has led to great advances in all life scie...

Dichloro Butenediamides as Irreversible Site‐Selective Protein Conjugation Reagent

Laserna, Victor
Abegg, Daniel
Afonso, Cláudia F
Martin, Esther M
Adibekian, Alexander
Ravn, Peter
Corzana, Francisco
Lopes Bernardes, Goncalo

September 2021

We describe maleic-acid derivatives as robust cysteine-selective reagents for protein labelling with...

Dichloro Butenediamides as Irreversible Site-Selective Protein Conjugation Reagent.

Laserna, Victor
Abegg, Daniel
Afonso, Cláudia F
Martin, Esther M
Adibekian, Alexander
Ravn, Peter
Corzana, Francisco
Lopes Bernardes, Goncalo

October 2021

We describe maleic-acid derivatives as robust cysteine-selective reagents for protein labelling with...

Dichloro Butenediamides as Irreversible Site‐Selective Protein Conjugation Reagent

Laserna, Victor
Abegg, Daniel
Afonso, Cláudia F.
Martin, Esther M.
Adibekian, Alexander
Ravn, Peter
Corzana, Francisco
Bernardes, Gonçalo J. L.

September 2021

Abstract: We describe maleic‐acid derivatives as robust cysteine‐selective reagents for protein labe...

Functional bridging of protein disulfide bonds with maleimides

Schumacher, FF

January 2013

The application of chemical methods to biological systems has led to great advances in all life scie...

Tunable reagents for multi-functional bioconjugation: reversible or permanent chemical modification of proteins and peptides by control of maleimide hydrolysis

Ryan, C.P.
Smith, M.E.B.
Schumacher, F.F.
Grohmann, D.
Papaioannou, D.
Waksman, Gabriel
Werner, F.
Baker, J.R.
Caddick, S.

January 2011

Controlling maleimide hydrolysis allows the modular construction of bromomaleimide-mediated bioconju...

Tunable reagents for multi-functional bioconjugation: reversible or permanent chemical modification of proteins and peptides by control of maleimide hydrolysis

Ryan, CP
Smith, MEB
Schumacher, FF
Grohmann, D
Papaioannou, D
Waksman, G
Werner, F
Baker, JR
Caddick, S

April 2011

Controlling maleimide hydrolysis allows the modular construction of bromomaleimide-mediated bioconju...

Covalent Modification of Biomolecules through Maleimide-Based Labeling Strategies

Renault, Kévin
Fredy, J.W.
Renard, Pierre-Yves
Sabot, Cyrille

January 2018

International audienceSince their first use in bioconjugation more than 50 years ago, maleimides hav...

Covalent Modification of Biomolecules through Maleimide-Based Labeling Strategies

Renault, Kévin
Fredy, J.W.
Renard, Pierre-Yves
Sabot, Cyrille

January 2018

International audienceSince their first use in bioconjugation more than 50 years ago, maleimides hav...

Covalent Modification of Biomolecules through Maleimide-Based Labeling Strategies

Renault, Kévin
Fredy, J.W.
Renard, Pierre-Yves
Sabot, Cyrille

January 2018

International audienceSince their first use in bioconjugation more than 50 years ago, maleimides hav...

Functional bridging of protein disulfide bonds with maleimides

Schumacher, FF

January 2013

The application of chemical methods to biological systems has led to great advances in all life scie...

Reversible protein affinity-labelling using bromomaleimide-based reagents

Nathani, RI
Chudasama, V
Ryan, CP
Moody, PR
Morgan, RE
Fitzmaurice, RJ
Smith, ME
Baker, JR
Caddick, S

April 2013

Reversible protein biotinylation is readily affected via conjugation with a bromomaleimide-based rea...

Protein modification, bioconjugation, and disulfide bridging using Bromomaleimides

Smith, M.E.B.
Schumacher, F.F.
Ryan, C.P.
Tedaldi, L.M.
Papaioannou, D.
Waksman, Gabriel
Caddick, S.
Baker, J.R.

February 2010

The maleimide motif is widely used for the selective chemical modification of cysteine residues in p...

Protein Modification, Bioconjugation, and Disulfide Bridging Using Bromomaleimides

Mark E. B. Smith (1268898)
Felix F. Schumacher (1268895)
Chris P. Ryan (1268889)
Lauren M. Tedaldi (1268886)
Danai Papaioannou (1268883)
Gabriel Waksman (29345)
Stephen Caddick (1268892)
James R. Baker (52496)

December 2015

The maleimide motif is widely used for the selective chemical modification of cysteine residues in p...

In Situ Maleimide Bridging of Disulfides and a New Approach to Protein PEGylation

Felix F. Schumacher (1268895)
Muriel Nobles (1275495)
Chris P. Ryan (1268889)
Mark E. B. Smith (1268898)
Andrew Tinker (477693)
Stephen Caddick (1268892)
James R. Baker (52496)

December 2015

The introduction of non-natural entities into proteins by chemical modification has numerous applica...

Functional bridging of protein disulfide bonds with maleimides

Schumacher, FF

January 2013

The application of chemical methods to biological systems has led to great advances in all life scie...

Dichloro Butenediamides as Irreversible Site‐Selective Protein Conjugation Reagent

Laserna, Victor
Abegg, Daniel
Afonso, Cláudia F
Martin, Esther M
Adibekian, Alexander
Ravn, Peter
Corzana, Francisco
Lopes Bernardes, Goncalo

September 2021

We describe maleic-acid derivatives as robust cysteine-selective reagents for protein labelling with...

Dichloro Butenediamides as Irreversible Site-Selective Protein Conjugation Reagent.

Laserna, Victor
Abegg, Daniel
Afonso, Cláudia F
Martin, Esther M
Adibekian, Alexander
Ravn, Peter
Corzana, Francisco
Lopes Bernardes, Goncalo

October 2021

We describe maleic-acid derivatives as robust cysteine-selective reagents for protein labelling with...

Dichloro Butenediamides as Irreversible Site‐Selective Protein Conjugation Reagent

Laserna, Victor
Abegg, Daniel
Afonso, Cláudia F.
Martin, Esther M.
Adibekian, Alexander
Ravn, Peter
Corzana, Francisco
Bernardes, Gonçalo J. L.

September 2021

Abstract: We describe maleic‐acid derivatives as robust cysteine‐selective reagents for protein labe...

Functional bridging of protein disulfide bonds with maleimides

Schumacher, FF

January 2013

The application of chemical methods to biological systems has led to great advances in all life scie...

Tunable reagents for multi-functional bioconjugation: reversible or permanent chemical modification of proteins and peptides by control of maleimide hydrolysis

Abstract

Extracted data

Tunable reagents for multi-functional bioconjugation: reversible or permanent chemical modification of proteins and peptides by control of maleimide hydrolysis

Abstract

Extracted data

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