Nanobodies targeting LexA autocleavage disclose a novel suppression strategy of SOS-response pathway.

Inhibition of mutation and combating the evolution of antibiotic resistance.

Ryan T Cirz
Jodie K Chin
David R Andes
Valérie de Crécy-Lagard
William A Craig
Floyd E Romesberg

June 2005

The emergence of drug-resistant bacteria poses a serious threat to human health. In the case of seve...

Specificity Determinants for Autoproteolysis of LexA, a Key Regulator of Bacterial SOS Mutagenesis

Charlie Y. Mo (1319652)
L. Dillon Birdwell (1319655)
Rahul M. Kohli (567843)

December 2015

Bacteria utilize the tightly regulated stress response (SOS) pathway to respond to a variety of geno...

Data_Sheet_1_Advancement of the 5-Amino-1-(Carbamoylmethyl)-1H-1,2,3-Triazole-4-Carboxamide Scaffold to Disarm the Bacterial SOS Response.pdf

Trevor Selwood (2479531)
Brian J. Larsen (1944598)
Charlie Y. Mo (4407439)
Matthew J. Culyba (4407442)
Zachary M. Hostetler (4743972)
Rahul M. Kohli (567843)
Allen B. Reitz (819813)
Simon D. P. Baugh (2364253)

December 2018

Many antibiotics, either directly or indirectly, cause DNA damage thereby activating the bacterial D...

Nanobodies targeting LexA autocleavage disclose a novel suppression strategy of SOS-response pathway.

Maso, Lorenzo
Vascon, Filippo
Chinellato, Monica
Goormaghtigh, Frederic
Bellio, Pierangelo
Campagnaro, Enrica
Van Melderen, Laurence
Ruzzene, Maria
Pardon, Els
Angelini, Alessandro
Celenza, Giuseppe
Steyaert, Jan
Tondi, Donatella
Cendron, Laura

November 2022

Antimicrobial resistance threatens the eradication of infectious diseases and impairs the efficacy o...

Nanobodies targeting LexA autocleavage disclose a novel suppression strategy of SOS-response pathway

Maso, Lorenzo
Vascon, Filippo
Chinellato, Monica
Goormaghtigh, Frédéric
Bellio, Pierangelo
Campagnaro, Enrica
Van Melderen, Laurence
Ruzzene, Maria
Pardon, Els
Angelini, Alessandro
Celenza, Giuseppe
Steyaert, Jan
Tondi, Donatella
Cendron, Laura

January 2022

Antimicrobial resistance threatens the eradication of infectious diseases and impairs the efficacy o...

Development of therapeutic agents blocking SOS activation

Maso, L.
Bellio, P.
Linciano, P.
D' Acunto, M.
Celenza, G.
Tondi, Donatella
Cendron, L.

January 2019

Multi-Drug Resistant Bacteria represent a global emergency, limiting the effective treatment of bact...

Development of therapeutic agents blocking SOS activation.

Maso, L.
Bellio, P.
Linciano, P.
D' Acunto, M.
Celenza, G.
Tondi, Donatella
Cendron, L.

January 2019

Multi-Drug Resistant Bacteria represent a global emergency, limiting the effective treatment of bact...

Make antibiotics great again: Combating drug resistance by targeting LexA, a regulator of bacterial evolution

Mo, Charlie Y

January 2016

The ability of bacterial pathogens to evolve and adapt to our antimicrobial agents has precipitated ...

The SOS response in bacteria and the LexA transcriptional repressor: withstanding drug resistance by inhibiting the bacterial mechanisms of adaptation to antimicrobials

Celenza, Giuseppe
Cendron, Laura
Bellio, Pierangelo
Mancini, Alisia
Di Pietro, Letizia
Vicario, Mattia
Perilli, Mariagrazia
Amicosante, Gianfranco
TONDI, Donatella
SPYRAKIS, FRANCESCA

January 2017

Multi-Drug Resistant Bacteria represent a global emergency, limiting the effective treatment of bact...

Integration of Molecular Modelling and In Vitro Studies to Inhibit LexA Proteolysis

Schuurs, Zachariah
McDonald, John P.
Croft, Laura
Richard, Derek
Woodgate, Roger
Gandhi, Neha S.

March 2023

Introduction: As antibiotic resistance has become more prevalent, the social and economic impacts ar...

The SOS response in bacteria and the LexA transcriptional repressor. Boronic acids derivatives: withstanding drug resistance by inhibiting the bacterial mechanisms of adaptation to antimicrobials

Celenza, Giuseppe
Tondi, Donatella
Cendron, Laura
Spyrakis, Francesca
Bellio, Pierangelo
Mancini, Alisia
Di Pietro, Letizia
Vicario, Mattia
Perilli, Mariagrazia
Amicosante, Gianfranco

January 2017

Multi-Drug Resistant Bacteria represent a global emergency, limiting the effective treatment of bact...

Engineered RecA Constructs Reveal the Minimal SOS Activation Complex

Michael B. Cory (14227890)
Allen Li (1601653)
Christina M. Hurley (14227893)
Zachary M. Hostetler (4743972)
Yarra Venkatesh (3278346)
Chloe M. Jones (3374555)
E. James Petersson (1306530)
Rahul M. Kohli (567843)

December 2022

The SOS response is a bacterial DNA damage response pathway that has been heavily implicated in bact...

Systematically Altering Bacterial SOS Activity under Stress Reveals Therapeutic Strategies for Potentiating Antibiotics

Charlie Y. Mo
Sara A. Manning
Manuela Roggiani
Matthew J. Culyba
Amanda N. Samuels
Paul D. Sniegowski
Mark Goulian
Rahul M. Kohli

August 2016

ABSTRACT The bacterial SOS response is a DNA damage repair network that is strongly implicated in bo...

Advancement of the 5-Amino-1-(Carbamoylmethyl)-1H-1,2,3-Triazole-4-Carboxamide Scaffold to Disarm the Bacterial SOS Response

Trevor Selwood
Trevor Selwood
Brian J. Larsen
Charlie Y. Mo
Charlie Y. Mo
Matthew J. Culyba
Matthew J. Culyba
Zachary M. Hostetler
Zachary M. Hostetler
Rahul M. Kohli
Rahul M. Kohli
Allen B. Reitz
Simon D. P. Baugh

December 2018

Many antibiotics, either directly or indirectly, cause DNA damage thereby activating the bacterial D...

Make Antibiotics Great Again: Combating Drug Resistance By Targeting Lexa, A Regulator Of Bacterial Evolution

Mo, Charlie Ye

January 2016

The ability of bacterial pathogens to evolve and adapt to our antimicrobial agents has precipitated ...

Inhibition of mutation and combating the evolution of antibiotic resistance.

Ryan T Cirz
Jodie K Chin
David R Andes
Valérie de Crécy-Lagard
William A Craig
Floyd E Romesberg

June 2005

The emergence of drug-resistant bacteria poses a serious threat to human health. In the case of seve...

Specificity Determinants for Autoproteolysis of LexA, a Key Regulator of Bacterial SOS Mutagenesis

Charlie Y. Mo (1319652)
L. Dillon Birdwell (1319655)
Rahul M. Kohli (567843)

December 2015

Bacteria utilize the tightly regulated stress response (SOS) pathway to respond to a variety of geno...

Data_Sheet_1_Advancement of the 5-Amino-1-(Carbamoylmethyl)-1H-1,2,3-Triazole-4-Carboxamide Scaffold to Disarm the Bacterial SOS Response.pdf

Trevor Selwood (2479531)
Brian J. Larsen (1944598)
Charlie Y. Mo (4407439)
Matthew J. Culyba (4407442)
Zachary M. Hostetler (4743972)
Rahul M. Kohli (567843)
Allen B. Reitz (819813)
Simon D. P. Baugh (2364253)

December 2018

Many antibiotics, either directly or indirectly, cause DNA damage thereby activating the bacterial D...

Nanobodies targeting LexA autocleavage disclose a novel suppression strategy of SOS-response pathway.

Maso, Lorenzo
Vascon, Filippo
Chinellato, Monica
Goormaghtigh, Frederic
Bellio, Pierangelo
Campagnaro, Enrica
Van Melderen, Laurence
Ruzzene, Maria
Pardon, Els
Angelini, Alessandro
Celenza, Giuseppe
Steyaert, Jan
Tondi, Donatella
Cendron, Laura

November 2022

Antimicrobial resistance threatens the eradication of infectious diseases and impairs the efficacy o...

Nanobodies targeting LexA autocleavage disclose a novel suppression strategy of SOS-response pathway

Maso, Lorenzo
Vascon, Filippo
Chinellato, Monica
Goormaghtigh, Frédéric
Bellio, Pierangelo
Campagnaro, Enrica
Van Melderen, Laurence
Ruzzene, Maria
Pardon, Els
Angelini, Alessandro
Celenza, Giuseppe
Steyaert, Jan
Tondi, Donatella
Cendron, Laura

January 2022

Antimicrobial resistance threatens the eradication of infectious diseases and impairs the efficacy o...

Development of therapeutic agents blocking SOS activation

Maso, L.
Bellio, P.
Linciano, P.
D' Acunto, M.
Celenza, G.
Tondi, Donatella
Cendron, L.

January 2019

Multi-Drug Resistant Bacteria represent a global emergency, limiting the effective treatment of bact...

Development of therapeutic agents blocking SOS activation.

Maso, L.
Bellio, P.
Linciano, P.
D' Acunto, M.
Celenza, G.
Tondi, Donatella
Cendron, L.

January 2019

Multi-Drug Resistant Bacteria represent a global emergency, limiting the effective treatment of bact...

Make antibiotics great again: Combating drug resistance by targeting LexA, a regulator of bacterial evolution

Mo, Charlie Y

January 2016

The ability of bacterial pathogens to evolve and adapt to our antimicrobial agents has precipitated ...

The SOS response in bacteria and the LexA transcriptional repressor: withstanding drug resistance by inhibiting the bacterial mechanisms of adaptation to antimicrobials

Celenza, Giuseppe
Cendron, Laura
Bellio, Pierangelo
Mancini, Alisia
Di Pietro, Letizia
Vicario, Mattia
Perilli, Mariagrazia
Amicosante, Gianfranco
TONDI, Donatella
SPYRAKIS, FRANCESCA

January 2017

Multi-Drug Resistant Bacteria represent a global emergency, limiting the effective treatment of bact...

Integration of Molecular Modelling and In Vitro Studies to Inhibit LexA Proteolysis

Schuurs, Zachariah
McDonald, John P.
Croft, Laura
Richard, Derek
Woodgate, Roger
Gandhi, Neha S.

March 2023

Introduction: As antibiotic resistance has become more prevalent, the social and economic impacts ar...

The SOS response in bacteria and the LexA transcriptional repressor. Boronic acids derivatives: withstanding drug resistance by inhibiting the bacterial mechanisms of adaptation to antimicrobials

Celenza, Giuseppe
Tondi, Donatella
Cendron, Laura
Spyrakis, Francesca
Bellio, Pierangelo
Mancini, Alisia
Di Pietro, Letizia
Vicario, Mattia
Perilli, Mariagrazia
Amicosante, Gianfranco

January 2017

Multi-Drug Resistant Bacteria represent a global emergency, limiting the effective treatment of bact...

Engineered RecA Constructs Reveal the Minimal SOS Activation Complex

Michael B. Cory (14227890)
Allen Li (1601653)
Christina M. Hurley (14227893)
Zachary M. Hostetler (4743972)
Yarra Venkatesh (3278346)
Chloe M. Jones (3374555)
E. James Petersson (1306530)
Rahul M. Kohli (567843)

December 2022

The SOS response is a bacterial DNA damage response pathway that has been heavily implicated in bact...

Systematically Altering Bacterial SOS Activity under Stress Reveals Therapeutic Strategies for Potentiating Antibiotics

Charlie Y. Mo
Sara A. Manning
Manuela Roggiani
Matthew J. Culyba
Amanda N. Samuels
Paul D. Sniegowski
Mark Goulian
Rahul M. Kohli

August 2016

ABSTRACT The bacterial SOS response is a DNA damage repair network that is strongly implicated in bo...

Advancement of the 5-Amino-1-(Carbamoylmethyl)-1H-1,2,3-Triazole-4-Carboxamide Scaffold to Disarm the Bacterial SOS Response

Trevor Selwood
Trevor Selwood
Brian J. Larsen
Charlie Y. Mo
Charlie Y. Mo
Matthew J. Culyba
Matthew J. Culyba
Zachary M. Hostetler
Zachary M. Hostetler
Rahul M. Kohli
Rahul M. Kohli
Allen B. Reitz
Simon D. P. Baugh

December 2018

Many antibiotics, either directly or indirectly, cause DNA damage thereby activating the bacterial D...

Make Antibiotics Great Again: Combating Drug Resistance By Targeting Lexa, A Regulator Of Bacterial Evolution

Mo, Charlie Ye

January 2016

The ability of bacterial pathogens to evolve and adapt to our antimicrobial agents has precipitated ...

Inhibition of mutation and combating the evolution of antibiotic resistance.

Ryan T Cirz
Jodie K Chin
David R Andes
Valérie de Crécy-Lagard
William A Craig
Floyd E Romesberg

June 2005

The emergence of drug-resistant bacteria poses a serious threat to human health. In the case of seve...

Specificity Determinants for Autoproteolysis of LexA, a Key Regulator of Bacterial SOS Mutagenesis

Charlie Y. Mo (1319652)
L. Dillon Birdwell (1319655)
Rahul M. Kohli (567843)

December 2015

Bacteria utilize the tightly regulated stress response (SOS) pathway to respond to a variety of geno...

Data_Sheet_1_Advancement of the 5-Amino-1-(Carbamoylmethyl)-1H-1,2,3-Triazole-4-Carboxamide Scaffold to Disarm the Bacterial SOS Response.pdf

Trevor Selwood (2479531)
Brian J. Larsen (1944598)
Charlie Y. Mo (4407439)
Matthew J. Culyba (4407442)
Zachary M. Hostetler (4743972)
Rahul M. Kohli (567843)
Allen B. Reitz (819813)
Simon D. P. Baugh (2364253)

December 2018

Many antibiotics, either directly or indirectly, cause DNA damage thereby activating the bacterial D...

Nanobodies targeting LexA autocleavage disclose a novel suppression strategy of SOS-response pathway.

Abstract

Extracted data

Nanobodies targeting LexA autocleavage disclose a novel suppression strategy of SOS-response pathway.

Abstract

Extracted data

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