Australian Journal of Chemistry Australian Journal of Chemistry Society
An international journal for chemical science

Articles citing this paper

Amyloid Fibrils in Bionanotechnology

Sarah H. Waterhouse and Juliet A. Gerrard
57(6) pp.519 - 523


43 articles found in CrossRef database.

Metal-triggered Nanofiber Formation of His-containing β-Sheet Peptide
Matsumura Sachiko, Uemura Shinobu, Mihara Hisakazu
Supramolecular Chemistry. 2006 18(5). p.397
Functional Organic Semiconductors Assembled via Natural Aggregating Peptides
Eakins Galen L., Pandey Rishi, Wojciechowski Jonathan P., Zheng Han Yue, Webb James E. A., Valéry Céline, Thordarson Pall, Plank Natalie O. V., Gerrard Juliet A., Hodgkiss Justin M.
Advanced Functional Materials. 2015 25(35). p.5640
Amyloid fibrils as functionalizable components of nanocomposite materials
Rao Shiva P., Meade Susie J., Healy Jackie P., Sutton Kevin H., Larsen Nigel G., Staiger Mark P., Gerrard Juliet A.
Biotechnology Progress. 2012 28(1). p.248
Sequence-Controlled Polymers (2017)
Martens Steven, Holloway Joshua O., Du Prez Filip E.
Explanation for the mechanical strength of amyloid fibrils
Fukuma Takeshi, Mostaert Anika S., Jarvis Suzanne P.
Tribology Letters. 2006 22(3). p.233
Peroxiredoxin is a Versatile Self-Assembling Tecton for Protein Nanotechnology
Phillips Amy J., Littlejohn Jacob, Yewdall N. Amy, Zhu Tong, Valéry Céline, Pearce F. Grant, Mitra Alok K., Radjainia Mazdak, Gerrard Juliet A.
Biomacromolecules. 2014 15(5). p.1871
Amyloid fibril formation from crude protein mixtures
Rao Shiva P., Meade Susie J., Joyce Nigel I., Healy Jackie P., Sutton Kevin H., Larsen Nigel G., Gerrard Juliet A.
Biotechnology Progress. 2011 27(6). p.1768
Concise Encyclopedia of Biomedical Polymers and Polymeric Biomaterials (2017)
Dehn Sabrina, Chapman Robert, Jolliffe Katrina A., Perrier Sébastien
Light-Triggered Disassembly of Amyloid Fibrils
Measey Thomas J., Gai Feng
Langmuir. 2012 28(34). p.12588
Functional Amyloid
Jarvis Suzanne P., Mostaert Anika S.
Imaging & Microscopy. 2007 9(2). p.25
Encyclopedia of Biomedical Polymers and Polymeric Biomaterials (2016)
Dehn Sabrina, Chapman Robert, Jolliffe Katrina A., Perrier Sébastien
Amyloid fibrils as a nanoscaffold for enzyme immobilization
Pilkington Sarah M., Roberts Sarah J., Meade Susie J., Gerrard Juliet A.
Biotechnology Progress. 2009  p.NA
New designed protein assemblies
Božič Sabina, Doles Tibor, Gradišar Helena, Jerala Roman
Current Opinion in Chemical Biology. 2013 17(6). p.940
The kinetics of aggregation of poly-glutamic acid based polypeptides
Colaco Martin, Park Jun, Blanch Harvey
Biophysical Chemistry. 2008 136(2-3). p.74
Immobilization of organophosphate hydrolase on an amyloid fibril nanoscaffold: Towards bioremediation and chemical detoxification
Raynes Jared K., Pearce F.Grant, Meade Susie J., Gerrard Juliet A.
Biotechnology Progress. 2011 27(2). p.360
Pushing the limits of copper mediated azide–alkyne cycloaddition (CuAAC) to conjugate polymeric chains to cyclic peptides
Poon Cheuk Ka, Chapman Robert, Jolliffe Katrina A., Perrier Sébastien
Polymer Chemistry. 2012 3(7). p.1820
Dielectrophoretic manipulation and solubility of protein nanofibrils formed from crude crystallins
Domigan Laura, Andersen Karsten B., Sasso Luigi, Dimaki Maria, Svendsen Winnie E., Gerrard Juliet A., Castillo-León Jaime
ELECTROPHORESIS. 2013 34(7). p.1105
A Statistical-Mechanical Theory of Fibril Formation in Dilute Protein Solutions
van Gestel Jeroen, de Leeuw Simon W.
Biophysical Journal. 2006 90(9). p.3134
Click and Click-Inspired Chemistry for the Design of Sequence-Controlled Polymers
Martens Steven, Holloway Joshua O., Du Prez Filip. E.
Macromolecular Rapid Communications. 2017  p.1700469
Stability and cytotoxicity of crystallin amyloid nanofibrils
Kaur Manmeet, Healy Jackie, Vasudevamurthy Madhusudan, Lassé Moritz, Puskar Ljiljana, Tobin Mark J., Valery Celine, Gerrard Juliet A., Sasso Luigi
Nanoscale. 2014 6(21). p.13169
Characterisation of Amyloid Fibril Formation by Small Heat-shock Chaperone Proteins Human αA-, αB- and R120G αB-Crystallins
Meehan Sarah, Knowles Tuomas P.J., Baldwin Andrew J., Smith Jeffrey F., Squires Adam M., Clements Phillip, Treweek Teresa M., Ecroyd Heath, Tartaglia Gian Gaetano, Vendruscolo Michele, MacPhee Cait E., Dobson Christopher M., Carver John A.
Journal of Molecular Biology. 2007 372(2). p.470
Does domain swapping improve the stability of RNase A?
Pearce F. Grant, Griffin Michael D.W., Gerrard Juliet A.
Biochemical and Biophysical Research Communications. 2009 382(1). p.114
A radish seed antifungal peptide with a high amyloid fibril-forming propensity
Garvey Megan, Meehan Sarah, Gras Sally L., Schirra Horst J., Craik David J., Van der Weerden Nicole L., Anderson Marilyn A., Gerrard Juliet A., Carver John A.
Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics. 2013 1834(8). p.1615
Species variation in PrPSc protofibril models
Scouras Alexander D., Daggett Valerie
Journal of Materials Science. 2008 43(10). p.3625
Stimuli-Responsive Interfaces (2017)
Shrestha Rekha Goswami, Aramaki Kenji
Tuning the properties of β-lactoglobulin nanofibrils with pH, NaCl and CaCl2
Loveday S.M., Wang X.L., Rao M.A., Anema S.G., Creamer L.K., Singh H.
International Dairy Journal. 2010 20(9). p.571
Synthetic Strategies for the Design of Peptide/Polymer Conjugates
Dehn Sabrina, Chapman Robert, Jolliffe Katrina A., Perrier Sébastien
Polymer Reviews. 2011 51(2). p.214
Soft Matter Nanotechnology (2015)
Shrestha Rekha G., Naito Masanobu
Biological-synthetic hybrid block copolymers: Combining the best from two worlds
Klok Harm-Anton
Journal of Polymer Science Part A: Polymer Chemistry. 2005 43(1). p.1
Amyloid Fibrils: From Disease to Design. New Biomaterial Applications for Self-Assembling Cross-β Fibrils
Gras Sally L.
Australian Journal of Chemistry. 2007 60(5). p.333
Polymer Science: A Comprehensive Reference (2012)
Kallitsis J.K., Andreopoulou A.K.
Construction and Control of Self-Assembly of Amyloid and Fibrous Peptides
Mihara Hisakazu, Matsumura Sachiko, Takahashi Tsuyoshi
Bulletin of the Chemical Society of Japan. 2005 78(4). p.572
Polymorphism and higher order structures of protein nanofibers from crude mixtures of fish lens crystallins: Toward useful materials
Healy Jackie, Wong Kang, Sawyer Elizabeth B., Roux Clement, Domigan Laura, Gras Sally L., Sunde Margaret, Larsen Nigel G., Gerrard Juliet, Vasudevamurthy Madhusudan
Biopolymers. 2012 97(8). p.595
Nanostructure Fabrication Based on Engineered α-Synuclein
Kobayashi Natsuki, Han Sungwoong, Nakamura Chikashi, Sode Koji
NanoBiotechnology. 2008 4(1-4). p.50
Human Pancreatitis-associated Protein Forms Fibrillar Aggregates with a Native-like Conformation
Ho Meng-Ru, Lou Yuan-Chao, Lin Wen-Chang, Lyu Ping-Chiang, Huang Wei-Ning, Chen Chinpan
Journal of Biological Chemistry. 2006 281(44). p.33566
Biopolymer Nanocomposites (2013)
Garvey Megan, Vasudevamurthy Madhusudan, Rao Shiva P., Ecroyd Heath, Gerrard Juliet A., Carver John A.
Fluorinated amino acids in amyloid formation: a symphony of size, hydrophobicity and α-helix propensity
Gerling Ulla I. M., Salwiczek Mario, Cadicamo Cosimo D., Erdbrink Holger, Czekelius Constantin, Grage Stephan L., Wadhwani Parvesh, Ulrich Anne S., Behrends Malte, Haufe Günter, Koksch Beate
Chem. Sci.. 2014 5(2). p.819
Crystallin Nanofibrils: A Functionalizable Nanoscaffold with Broad Applications Manufactured from Waste
Kaur Manmeet, Roberts Sarah, Healy Jackie, Domigan Laura, Vasudevamurthy Madhusudan, Gerrard Juliet A., Sasso Luigi
ChemPlusChem. 2015 80(5). p.810
Controlling the dimensions of amyloid fibrils: Toward homogenous components for bionanotechnology
Domigan Laura J., Healy Jackie P., Meade Susie J., Blaikie Richard J., Gerrard Juliet A.
Biopolymers. 2012 97(2). p.123
Engineering Aspects of Self-Organizing Materials (2009)
Gras Sally L.
The interplay between carbon nanomaterials and amyloid fibrils in bio-nanotechnology
Li Chaoxu, Mezzenga Raffaele
Nanoscale. 2013 5(14). p.6207
Analysis of insulin amyloid fibrils by Raman spectroscopy
Ortiz Corasi, Zhang Dongmao, Ribbe Alexander E., Xie Yong, Ben-Amotz Dor
Biophysical Chemistry. 2007 128(2-3). p.150
Wheat glutenin proteins assemble into a nanostructure with unusual structural features
Mackintosh Sarah H., Meade Susie J., Healy Jackie P., Sutton Kevin H., Larsen Nigel G., Squires Adam M., Gerrard Juliet A.
Journal of Cereal Science. 2009 49(1). p.157

Abstract Export Citation