The Non-Core Regions of Human Lysozyme Amyloid Fibrils Influence Cytotoxicity

Thermodynamic and Kinetic Aspects of Hen Egg White Lysozyme Amyloid Assembly

Miti, Tatiana

November 2017

Deposition of protein fibers with a characteristic cross-β sheet structure is the molecular marker a...

Amyloid Protein Aggregation and Associated Toxicity

Niyangoda, Chamani A.

November 2019

Amyloidosis is a group of diseases in which amyloid fibrils accumulate and deposit into plaques and ...

The cytoxocity of amyloid fibrils

Hellewell, Andrew Leslie

January 2011

Amyloid assemblies consist of an organised cross ~-sheet structure and can be formed by many protein...

The non-core regions of human lysozyme amyloid fibrils influence cytotoxicity.

Mossuto, Maria F
Dhulesia, Anne
Devlin, Glyn
Frare, Erica
Kumita, Janet R
Polverino de Laureto, Patrizia
Dumoulin, Mireille
Fontana, Angelo
Dobson, Christopher M
Salvatella, Xavier

January 2010

Identifying the cause of the cytotoxicity of species populated during amyloid formation is crucial t...

The Non-Core Regions of Human Lysozyme Amyloid Fibrils Influence Cytotoxicity

Mossuto, Maria F.
Dhulesia, Anne
Devlin, Glyn
Frare, Erica
Kumita, Janet R.
de Laureto, Patrizia Polverino
Dumoulin, Mireille
Fontana, Angelo
Dobson, Christopher M.
Salvatella, Xavier

October 2010

AbstractIdentifying the cause of the cytotoxicity of species populated during amyloid formation is c...

The Non-core Regions of Human Lysozyme Amyloid Fibrils Give Rise to Cytotoxicity

Mossuto, Mf
Dhulesia, A
Devlin, G
Frare, Erica
Kumita, Jr
POLVERINO DE LAURETO, Patrizia
Dumoulin, M
Fontana, Angelo
Dobson, Cm
Salvatella, X.

January 2010

Identifying the cause of the cytotoxicity of species populated during amyloid formation is crucial t...

Identification of the Core Structure of Lysozyme Amyloid Fibrils by Proteolysis

Frare, Erica
Mossuto, Maria F.
Polverino de Laureto, Patrizia
Dumoulin, Mireille
Dobson, Christopher M
Fontana, Angelo

January 2006

Human lysozyme variants form amyloid fibrils in individuals suffering from a familial non-neuropath...

Characterization of Oligomeric Species on the Aggregation Pathway of Human Lysozyme

Frare, Erica
Mossuto, Maria F.
Polverino de Laureto, Patrizia
Tolin, Serena
Menzer, Linda
Dumoulin, Mireille
Dobson, Christopher M.
Fontana, Angelo

January 2009

The aggregation process of wild-type human lysozyme at pH 3.0 and 60 °C has been analyzed by charact...

Structural studies of heterogeneous amyloid species of lysozymes and de novo protein albebetin and their cytotoxicity

Zamotin, Vladimir

January 2007

A number of diseases are linked to protein folding problems which lead to the deposition of insolubl...

Analysis of the Native Structure, Stability and Aggregation of Biotinylated Human Lysozyme

Ahn Minkoo
Genst, de Edwin
Kaminski Schierle Gabriele S.
Erdélyi Miklós
Kaminski Clemens F.
Dobson Melanie J.
Kumita Janet R.

January 2012

Fibril formation by mutational variants of human lysozyme is associated with a fatal form of heredit...

Identification of the core structure of lysozyme amyloid fibrils by proteolysis

FRARE, ERICA
POLVERINO DE LAURETO, PATRIZIA
FONTANA, ANGELO
MOSSUTO MF
DUMOULIN M
DOBSON CM

January 2006

Human lysozyme variants form amyloid fibrils in individuals suffering from a familial non-neuropathi...

Prefibrillar amyloid protein aggregates share common features of cytotoxicity.

Massimo Stefani
Christopher M. Dobson
Giulia Calloni
Monica Bucciantini
Fabrizio Chiti
Daniele Nosi
Lucia Formigli

July 2004

The intracellular free Ca(2+) concentration and redox status of murine fibroblasts exposed to prefib...

A non-natural variant of human lysozyme (I59T) mimics the in vitro behaviour of the I56T variant that is responsible for a form of familial amyloidosis.

Hagan, Christine L
Johnson, Russell J K
Dhulesia, Anne
Dumoulin, Mireille
Dumont, Janice
De Genst, Erwin
Christodoulou, John
Robinson, Carol V
Dobson, Christopher M
Kumita, Janet R

January 2010

We report here the detailed characterisation of a non-naturally occurring variant of human lysozyme,...

Amyloidogenesis in its biological environment: challenging a fundamental issue in protein misfolding diseases.

BELLOTTI, VITTORIO
Chiti F.

January 2008

The inability of a protein to adopt its native and soluble conformation (protein misfolding) is the ...

The relationship between amyloid structure and cytotoxicity

Marshall, Karen E
Marchante, Ricardo
Xue, Wei-Feng
Serpell, Louise C

January 2014

Self-assembly of proteins and peptides into amyloid structures has been the subject of intense and f...

Thermodynamic and Kinetic Aspects of Hen Egg White Lysozyme Amyloid Assembly

Miti, Tatiana

November 2017

Deposition of protein fibers with a characteristic cross-β sheet structure is the molecular marker a...

Amyloid Protein Aggregation and Associated Toxicity

Niyangoda, Chamani A.

November 2019

Amyloidosis is a group of diseases in which amyloid fibrils accumulate and deposit into plaques and ...

The cytoxocity of amyloid fibrils

Hellewell, Andrew Leslie

January 2011

Amyloid assemblies consist of an organised cross ~-sheet structure and can be formed by many protein...

The non-core regions of human lysozyme amyloid fibrils influence cytotoxicity.

Mossuto, Maria F
Dhulesia, Anne
Devlin, Glyn
Frare, Erica
Kumita, Janet R
Polverino de Laureto, Patrizia
Dumoulin, Mireille
Fontana, Angelo
Dobson, Christopher M
Salvatella, Xavier

January 2010

Identifying the cause of the cytotoxicity of species populated during amyloid formation is crucial t...

The Non-Core Regions of Human Lysozyme Amyloid Fibrils Influence Cytotoxicity

Mossuto, Maria F.
Dhulesia, Anne
Devlin, Glyn
Frare, Erica
Kumita, Janet R.
de Laureto, Patrizia Polverino
Dumoulin, Mireille
Fontana, Angelo
Dobson, Christopher M.
Salvatella, Xavier

October 2010

AbstractIdentifying the cause of the cytotoxicity of species populated during amyloid formation is c...

The Non-core Regions of Human Lysozyme Amyloid Fibrils Give Rise to Cytotoxicity

Mossuto, Mf
Dhulesia, A
Devlin, G
Frare, Erica
Kumita, Jr
POLVERINO DE LAURETO, Patrizia
Dumoulin, M
Fontana, Angelo
Dobson, Cm
Salvatella, X.

January 2010

Identifying the cause of the cytotoxicity of species populated during amyloid formation is crucial t...

Identification of the Core Structure of Lysozyme Amyloid Fibrils by Proteolysis

Frare, Erica
Mossuto, Maria F.
Polverino de Laureto, Patrizia
Dumoulin, Mireille
Dobson, Christopher M
Fontana, Angelo

January 2006

Human lysozyme variants form amyloid fibrils in individuals suffering from a familial non-neuropath...

Characterization of Oligomeric Species on the Aggregation Pathway of Human Lysozyme

Frare, Erica
Mossuto, Maria F.
Polverino de Laureto, Patrizia
Tolin, Serena
Menzer, Linda
Dumoulin, Mireille
Dobson, Christopher M.
Fontana, Angelo

January 2009

The aggregation process of wild-type human lysozyme at pH 3.0 and 60 °C has been analyzed by charact...

Structural studies of heterogeneous amyloid species of lysozymes and de novo protein albebetin and their cytotoxicity

Zamotin, Vladimir

January 2007

A number of diseases are linked to protein folding problems which lead to the deposition of insolubl...

Analysis of the Native Structure, Stability and Aggregation of Biotinylated Human Lysozyme

Ahn Minkoo
Genst, de Edwin
Kaminski Schierle Gabriele S.
Erdélyi Miklós
Kaminski Clemens F.
Dobson Melanie J.
Kumita Janet R.

January 2012

Fibril formation by mutational variants of human lysozyme is associated with a fatal form of heredit...

Identification of the core structure of lysozyme amyloid fibrils by proteolysis

FRARE, ERICA
POLVERINO DE LAURETO, PATRIZIA
FONTANA, ANGELO
MOSSUTO MF
DUMOULIN M
DOBSON CM

January 2006

Human lysozyme variants form amyloid fibrils in individuals suffering from a familial non-neuropathi...

Prefibrillar amyloid protein aggregates share common features of cytotoxicity.

Massimo Stefani
Christopher M. Dobson
Giulia Calloni
Monica Bucciantini
Fabrizio Chiti
Daniele Nosi
Lucia Formigli

July 2004

The intracellular free Ca(2+) concentration and redox status of murine fibroblasts exposed to prefib...

A non-natural variant of human lysozyme (I59T) mimics the in vitro behaviour of the I56T variant that is responsible for a form of familial amyloidosis.

Hagan, Christine L
Johnson, Russell J K
Dhulesia, Anne
Dumoulin, Mireille
Dumont, Janice
De Genst, Erwin
Christodoulou, John
Robinson, Carol V
Dobson, Christopher M
Kumita, Janet R

January 2010

We report here the detailed characterisation of a non-naturally occurring variant of human lysozyme,...

Amyloidogenesis in its biological environment: challenging a fundamental issue in protein misfolding diseases.

BELLOTTI, VITTORIO
Chiti F.

January 2008

The inability of a protein to adopt its native and soluble conformation (protein misfolding) is the ...

The relationship between amyloid structure and cytotoxicity

Marshall, Karen E
Marchante, Ricardo
Xue, Wei-Feng
Serpell, Louise C

January 2014

Self-assembly of proteins and peptides into amyloid structures has been the subject of intense and f...

Thermodynamic and Kinetic Aspects of Hen Egg White Lysozyme Amyloid Assembly

Miti, Tatiana

November 2017

Deposition of protein fibers with a characteristic cross-β sheet structure is the molecular marker a...

Amyloid Protein Aggregation and Associated Toxicity

Niyangoda, Chamani A.

November 2019

Amyloidosis is a group of diseases in which amyloid fibrils accumulate and deposit into plaques and ...

The cytoxocity of amyloid fibrils

Hellewell, Andrew Leslie

January 2011

Amyloid assemblies consist of an organised cross ~-sheet structure and can be formed by many protein...

The Non-Core Regions of Human Lysozyme Amyloid Fibrils Influence Cytotoxicity

Abstract

Extracted data

The Non-Core Regions of Human Lysozyme Amyloid Fibrils Influence Cytotoxicity

Abstract

Extracted data

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