Amylin uncovered: a review on the polypeptide responsible for type II diabetes
K Pillay, P Govender - BioMed research international, 2013 - Wiley Online Library
Amylin is primarily responsible for classifying type II diabetes as an amyloid (protein
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
[PDF][PDF] Amylin Uncovered: A Review on the Polypeptide Responsible for Type II Diabetes
K Pillay, P Govender - 2013 - cyberleninka.org
Amylin is primarily responsible for classifying type II diabetes as an amyloid (protein
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
Amylin uncovered: a review on the polypeptide responsible for type II diabetes.
K Pillay, P Govender - Biomed Research International, 2013 - europepmc.org
Amylin is primarily responsible for classifying type II diabetes as an amyloid (protein
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
[PDF][PDF] Amylin Uncovered: A Review on the Polypeptide Responsible for Type II Diabetes
K Pillay, P Govender - 2013 - core.ac.uk
Amylin is primarily responsible for classifying type II diabetes as an amyloid (protein
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
[PDF][PDF] Amylin Uncovered: A Review on the Polypeptide Responsible for Type II Diabetes
K Pillay, P Govender - 2013 - pdfs.semanticscholar.org
Amylin is primarily responsible for classifying type II diabetes as an amyloid (protein
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
[HTML][HTML] Amylin Uncovered: A Review on the Polypeptide Responsible for Type II Diabetes
K Pillay, P Govender - BioMed Research International, 2013 - ncbi.nlm.nih.gov
Amylin is primarily responsible for classifying type II diabetes as an amyloid (protein
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
[PDF][PDF] Amylin Uncovered: A Review on the Polypeptide Responsible for Type II Diabetes
K Pillay, P Govender - 2013 - researchgate.net
Amylin is primarily responsible for classifying type II diabetes as an amyloid (protein
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
[PDF][PDF] Amylin Uncovered: A Review on the Polypeptide Responsible for Type II Diabetes
K Pillay, P Govender - 2013 - Citeseer
Amylin is primarily responsible for classifying type II diabetes as an amyloid (protein
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
Amylin uncovered: a review on the polypeptide responsible for type II diabetes
K Pillay, P Govender - BioMed research international, 2013 - pubmed.ncbi.nlm.nih.gov
Amylin is primarily responsible for classifying type II diabetes as an amyloid (protein
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
Amylin uncovered: A review on the polypeptide responsible for type II diabetes
K Pillay, P Govender - BioMed Research International, 2013 - elibrary.ru
Amylin is primarily responsible for classifying type II diabetes as an amyloid (protein
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …
misfolding) disease as it has great potential to aggregate into toxic nanoparticles, thereby …