Characterising the association of latency with α(1)-antitrypsin polymerisation using a novel monoclonal antibody.

The structural basis for Z α1-antitrypsin polymerization in the liver

Faull S. V.
Elliston E. L. K.
Gooptu B.
Jagger A. M.
Aldobiyan I.
Redzej A.
Badaoui M.
Heyer-Chauhan N.
Tamir Rashid S.
Reynolds G. M.
Adams D. H.
Miranda E.
Orlova E. V.
Irving J. A.
Lomas D. A.

January 2020

The serpinopathies are among a diverse set of conformational diseases that involve the aberrant self...

The molecular species responsible for α₁‐antitrypsin deficiency are suppressed by a small molecule chaperone

Ronzoni, R
Heyer‐Chauhan, N
Fra, A
Pearce, AC
Rüdiger, M
Miranda, E
Irving, JA
Lomas, DA

October 2020

The formation of ordered Z (Glu342Lys) α1‐antitrypsin polymers in hepatocytes is central to liver di...

Defining the mechanism of polymerization in the serpinopathies.

Ekeowa, U
Freeke, J
Miranda, E
Gooptu, B
Bush, M
Pérez, J
Teckman, J
Robinson, C
Lomas, D

January 2010

The serpinopathies result from the ordered polymerization of mutants of members of the serine protei...

Characterising the association of latency with α1-antitrypsin polymerisation using a novel monoclonal antibody

Tan, Lu
Perez, Juan
Mela, Marianna
Miranda, Elena
Burling, Keith A
Rouhani, Farshid N
DeMeo, Dawn L
Haq, Imran
Irving, James A
Ordóñez, Adriana
Dickens, Jennifer A
Brantly, Mark
Marciniak, Stefan J
Alexander, Graeme J M
Gooptu, Bibek
Lomas, David A

January 2015

Abstractα1-Antitrypsin is primarily synthesised in the liver, circulates to the lung and protects pu...

Characterising the association of latency with alpha1 antitrypsin polymerisation using a novel monoclonal antibody

L., Tan
J., Perez
M., Mela
MIRANDA BANOS, MARIA ELENA
K. A., Burling
F. N., Rouhani
D. L., DeMeo
I., Haq
J. A., Irving
A., Ordóñez
J. A., Dickens
M., Brantly
S. J., Marciniak
G. J. M., Alexander
B., Gooptu
D. A., Lomas

January 2015

α1-Antitrypsin is primarily synthesised in the liver, circulates to the lung and protects pulmonary ...

Characterising the association of latency with α1-antitrypsin polymerisation using a novel monoclonal antibody

Tan, L.
Perez, J.
Mela, M.
Miranda, E.
Burling, K.A.
Rouhani, F.N.
DeMeo, D.L.
Haq, I.
Irving, J.A.
Ordóñez, A.
Dickens, J.A.
Brantly, M.
Marciniak, S.J.
Alexander, G.J.
Gooptu, Bibek
Lomas, D.A.

January 2015

α1-Antitrypsin is primarily synthesised in the liver, circulates to the lung and protects pulmonary ...

Structural characterisation of tissue-derived, disease-associated polymers of alpha-1-antitrypsin using conformation-selective antibodies and single-particle reconstructions from electron microscopy images

Elliston, E
Faull, S
Laffranchi, M
Gooptu, B
Jagger, A
Miranda, E
Perez, J
Heyer-Chauhan, N
Lukoyanova, N
Redzej, A
Fra, A
Orlova, E
Lomas, D
Irving, J

January 2019

α1-Antitrypsin is an abundant plasma inhibitor of neutrophil elastase,expressed at high levels by he...

The molecular species responsible for α1 -antitrypsin deficiency are suppressed by a small molecule chaperone

Ronzoni, Riccardo
Heyer-Chauhan, Nina
Fra, Annamaria
Pearce, Andrew C
Rüdiger, Martin
Miranda, Elena
Irving, James A
Lomas, David A

January 2020

The formation of ordered Z (Glu342Lys) α1 -antitrypsin polymers in hepatocytes is central to liver d...

A single-chain variable fragment intrabody prevents intracellular polymerization of Z α1-antitrypsin while allowing its antiproteinase activity.

Ordóñez, Adriana
Pérez, Juan
Tan, Lu
Dickens, Jennifer
Motamedi-Shad, Neda
Irving, James A
Haq, Imran
Ekeowa, Ugo
Marciniak, Stefan
Miranda, Elena
Lomas, David A

June 2015

Mutant Z α1-antitrypsin (E342K) accumulates as polymers within the endoplasmic reticulum (ER) of hep...

A novel monoclonal antibody to characterize pathogenic polymers in liver disease associated with α1-antitrypsin deficiency

Miranda, E.
Pérez, J.
Ekeowa, U.I.
Hadzic, N.
Kalsheker, N.
Gooptu, Bibek
Portmann, B.
Belorgey, D.
Hill, M.
Chambers, S.
Teckman, J.
Alexander, G.J.
Marciniak, S.J.
Lomas, D.A.

September 2010

Alpha(1)-antitrypsin is the most abundant circulating protease inhibitor. The severe Z deficiency al...

A novel monoclonal antibody to characterize pathogenic polymers in liver disease associated with alpha1-antitrypsin deficiency.

Maria Elena Miranda Banos
J. Perez
U.I. Ekeowa
N. Hadzic
N. Kalsheker
B. Gooptu
B. Portmann
D. Belorgey
M. Hill
S. Chambers
J. Teckman
G. Alexander
Alexander Gj
S.J. Marciniak
D.A. Lomas

January 2010

Alpha(1)-antitrypsin is the most abundant circulating protease inhibitor. The severe Z deficiency al...

Reactive centre loop mutants of alpha-1-antitrypsin reveal position-specific effects on intermediate formation along the polymerisation pathway

Haq, Imran
Irving, James A
Faull, Sarah V
Dickens, Jennifer A
Ordóñez, Adriana
Belorgey, Didier
Gooptu, Bibekbrata
Lomas, David A

May 2013

The common severe Z mutation (E342K) of α1-antitrypsin forms intracellular polymers that are associa...

Reactive centre loop mutants of α-1-antitrypsin reveal position-specific effects on intermediate formation along the polymerization pathway

Haq, I.
Irving, J.A.
Faull, S.V.
Dickens, J.A.
Ordóñez, A.
Belorgey, D.
Gooptu, Bibek
Lomas, D.A.

June 2013

The common severe Z mutation (E342K) of α1-antitrypsin forms intracellular polymers that are associa...

The structural basis for Z α1-antitrypsin polymerisation in the liver

Sarah V. Faull (9610271)
Emma L. K. Elliston (6199646)
Bibek Gooptu (157303)
Alistair M. Jagger (9610274)
Ibrahim Aldobiyan (7085567)
Adam Redzej (2125912)
Magd Badaoui (5877179)
Nina Heyer-Chauhan (9610277)
S. Tamir Rashid (1287774)
Gary M. Reynolds (353976)
David H Adams (43272)
Elena Miranda (21508)
Elena V. Orlova (255464)
James A. Irving (365880)
David A. Lomas (77217)

October 2020

The serpinopathies are among a diverse set of conformational diseases that involve the aberrant self...

Characterisation of the polymerisation properties of at-antitrypsin and its pathological Z variant

Levina, Vitalina

January 2015

Protease inhibitors of the serpin family are characterised by a metastable native fold which is nece...

The structural basis for Z α1-antitrypsin polymerization in the liver

Faull S. V.
Elliston E. L. K.
Gooptu B.
Jagger A. M.
Aldobiyan I.
Redzej A.
Badaoui M.
Heyer-Chauhan N.
Tamir Rashid S.
Reynolds G. M.
Adams D. H.
Miranda E.
Orlova E. V.
Irving J. A.
Lomas D. A.

January 2020

The serpinopathies are among a diverse set of conformational diseases that involve the aberrant self...

The molecular species responsible for α₁‐antitrypsin deficiency are suppressed by a small molecule chaperone

Ronzoni, R
Heyer‐Chauhan, N
Fra, A
Pearce, AC
Rüdiger, M
Miranda, E
Irving, JA
Lomas, DA

October 2020

The formation of ordered Z (Glu342Lys) α1‐antitrypsin polymers in hepatocytes is central to liver di...

Defining the mechanism of polymerization in the serpinopathies.

Ekeowa, U
Freeke, J
Miranda, E
Gooptu, B
Bush, M
Pérez, J
Teckman, J
Robinson, C
Lomas, D

January 2010

The serpinopathies result from the ordered polymerization of mutants of members of the serine protei...

Characterising the association of latency with α1-antitrypsin polymerisation using a novel monoclonal antibody

Tan, Lu
Perez, Juan
Mela, Marianna
Miranda, Elena
Burling, Keith A
Rouhani, Farshid N
DeMeo, Dawn L
Haq, Imran
Irving, James A
Ordóñez, Adriana
Dickens, Jennifer A
Brantly, Mark
Marciniak, Stefan J
Alexander, Graeme J M
Gooptu, Bibek
Lomas, David A

January 2015

Abstractα1-Antitrypsin is primarily synthesised in the liver, circulates to the lung and protects pu...

Characterising the association of latency with alpha1 antitrypsin polymerisation using a novel monoclonal antibody

L., Tan
J., Perez
M., Mela
MIRANDA BANOS, MARIA ELENA
K. A., Burling
F. N., Rouhani
D. L., DeMeo
I., Haq
J. A., Irving
A., Ordóñez
J. A., Dickens
M., Brantly
S. J., Marciniak
G. J. M., Alexander
B., Gooptu
D. A., Lomas

January 2015

α1-Antitrypsin is primarily synthesised in the liver, circulates to the lung and protects pulmonary ...

Characterising the association of latency with α1-antitrypsin polymerisation using a novel monoclonal antibody

Tan, L.
Perez, J.
Mela, M.
Miranda, E.
Burling, K.A.
Rouhani, F.N.
DeMeo, D.L.
Haq, I.
Irving, J.A.
Ordóñez, A.
Dickens, J.A.
Brantly, M.
Marciniak, S.J.
Alexander, G.J.
Gooptu, Bibek
Lomas, D.A.

January 2015

α1-Antitrypsin is primarily synthesised in the liver, circulates to the lung and protects pulmonary ...

Structural characterisation of tissue-derived, disease-associated polymers of alpha-1-antitrypsin using conformation-selective antibodies and single-particle reconstructions from electron microscopy images

Elliston, E
Faull, S
Laffranchi, M
Gooptu, B
Jagger, A
Miranda, E
Perez, J
Heyer-Chauhan, N
Lukoyanova, N
Redzej, A
Fra, A
Orlova, E
Lomas, D
Irving, J

January 2019

α1-Antitrypsin is an abundant plasma inhibitor of neutrophil elastase,expressed at high levels by he...

The molecular species responsible for α1 -antitrypsin deficiency are suppressed by a small molecule chaperone

Ronzoni, Riccardo
Heyer-Chauhan, Nina
Fra, Annamaria
Pearce, Andrew C
Rüdiger, Martin
Miranda, Elena
Irving, James A
Lomas, David A

January 2020

The formation of ordered Z (Glu342Lys) α1 -antitrypsin polymers in hepatocytes is central to liver d...

A single-chain variable fragment intrabody prevents intracellular polymerization of Z α1-antitrypsin while allowing its antiproteinase activity.

Ordóñez, Adriana
Pérez, Juan
Tan, Lu
Dickens, Jennifer
Motamedi-Shad, Neda
Irving, James A
Haq, Imran
Ekeowa, Ugo
Marciniak, Stefan
Miranda, Elena
Lomas, David A

June 2015

Mutant Z α1-antitrypsin (E342K) accumulates as polymers within the endoplasmic reticulum (ER) of hep...

A novel monoclonal antibody to characterize pathogenic polymers in liver disease associated with α1-antitrypsin deficiency

Miranda, E.
Pérez, J.
Ekeowa, U.I.
Hadzic, N.
Kalsheker, N.
Gooptu, Bibek
Portmann, B.
Belorgey, D.
Hill, M.
Chambers, S.
Teckman, J.
Alexander, G.J.
Marciniak, S.J.
Lomas, D.A.

September 2010

Alpha(1)-antitrypsin is the most abundant circulating protease inhibitor. The severe Z deficiency al...

A novel monoclonal antibody to characterize pathogenic polymers in liver disease associated with alpha1-antitrypsin deficiency.

Maria Elena Miranda Banos
J. Perez
U.I. Ekeowa
N. Hadzic
N. Kalsheker
B. Gooptu
B. Portmann
D. Belorgey
M. Hill
S. Chambers
J. Teckman
G. Alexander
Alexander Gj
S.J. Marciniak
D.A. Lomas

January 2010

Alpha(1)-antitrypsin is the most abundant circulating protease inhibitor. The severe Z deficiency al...

Reactive centre loop mutants of alpha-1-antitrypsin reveal position-specific effects on intermediate formation along the polymerisation pathway

Haq, Imran
Irving, James A
Faull, Sarah V
Dickens, Jennifer A
Ordóñez, Adriana
Belorgey, Didier
Gooptu, Bibekbrata
Lomas, David A

May 2013

The common severe Z mutation (E342K) of α1-antitrypsin forms intracellular polymers that are associa...

Reactive centre loop mutants of α-1-antitrypsin reveal position-specific effects on intermediate formation along the polymerization pathway

Haq, I.
Irving, J.A.
Faull, S.V.
Dickens, J.A.
Ordóñez, A.
Belorgey, D.
Gooptu, Bibek
Lomas, D.A.

June 2013

The common severe Z mutation (E342K) of α1-antitrypsin forms intracellular polymers that are associa...

The structural basis for Z α1-antitrypsin polymerisation in the liver

Sarah V. Faull (9610271)
Emma L. K. Elliston (6199646)
Bibek Gooptu (157303)
Alistair M. Jagger (9610274)
Ibrahim Aldobiyan (7085567)
Adam Redzej (2125912)
Magd Badaoui (5877179)
Nina Heyer-Chauhan (9610277)
S. Tamir Rashid (1287774)
Gary M. Reynolds (353976)
David H Adams (43272)
Elena Miranda (21508)
Elena V. Orlova (255464)
James A. Irving (365880)
David A. Lomas (77217)

October 2020

The serpinopathies are among a diverse set of conformational diseases that involve the aberrant self...

Characterisation of the polymerisation properties of at-antitrypsin and its pathological Z variant

Levina, Vitalina

January 2015

Protease inhibitors of the serpin family are characterised by a metastable native fold which is nece...

The structural basis for Z α1-antitrypsin polymerization in the liver

Faull S. V.
Elliston E. L. K.
Gooptu B.
Jagger A. M.
Aldobiyan I.
Redzej A.
Badaoui M.
Heyer-Chauhan N.
Tamir Rashid S.
Reynolds G. M.
Adams D. H.
Miranda E.
Orlova E. V.
Irving J. A.
Lomas D. A.

January 2020

The serpinopathies are among a diverse set of conformational diseases that involve the aberrant self...

The molecular species responsible for α₁‐antitrypsin deficiency are suppressed by a small molecule chaperone

Ronzoni, R
Heyer‐Chauhan, N
Fra, A
Pearce, AC
Rüdiger, M
Miranda, E
Irving, JA
Lomas, DA

October 2020

The formation of ordered Z (Glu342Lys) α1‐antitrypsin polymers in hepatocytes is central to liver di...

Defining the mechanism of polymerization in the serpinopathies.

Ekeowa, U
Freeke, J
Miranda, E
Gooptu, B
Bush, M
Pérez, J
Teckman, J
Robinson, C
Lomas, D

January 2010

The serpinopathies result from the ordered polymerization of mutants of members of the serine protei...

Characterising the association of latency with α(1)-antitrypsin polymerisation using a novel monoclonal antibody.

Abstract

Extracted data

Characterising the association of latency with α(1)-antitrypsin polymerisation using a novel monoclonal antibody.

Abstract

Extracted data

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