Identification and Characterization of Peptides and Proteins using Fourier Transform Ion Cyclotron Resonance Mass Spectrometry

Palmblad, Magnus

January 2002

Mass spectrometry has in recent years been established as the standard method for protein identification and characterization in proteomics with excellent intrinsic sensitivity and specificity. Fourier transform ion cyclotron resonance is the mass spectrometric technique that provides the highest resolving power and mass accuracy, increasing the amount of information that can be obtained from complex samples. This thesis concerns how useful information on proteins of interest can be extracted from mass spectrometric data on different levels of protein structure and how to obtain this data experimentally. It was shown that it is possible to analyze complex mixtures of protein tryptic digests by direct infusion electrospray ionization Fourier transform ion cyclotron resonance mass spectrometry and identify abundant proteins by peptide mass fingerprinting. Coupling on-line methods such as liquid chromatography and capillary electrophoresis increased the number of proteins that could be identified in human body fluids. Protein identification was also improved by novel statistical methods utilizing prediction of chromatographic behavior and the non-randomness of enzymatic digestion. To identify proteins by short sequence tags, electron capture dissociation was implemented, improved and finally coupled on-line to liquid chromatography for the first time. The combined techniques can be used to sequence large proteins de novo or to localize and characterize any labile post-translational modification. New computer algorithms for the automated analysis of isotope exchange mass spectra were developed to facilitate the study of protein structural dynamics. The non-covalent interaction between HIV-inhibitory peptides and the oligomerization of amyloid β-peptides were investigated, reporting several new findings with possible relevance for development of anti-HIV drug therapies and understanding of fundamental mechanisms in Alzheimer’s disease.

Materials science

Peptide

protein

peptide mass fingerprinting

identification

sequencing

protein structure

non-covalent interaction

modification

electrospray ionization

liquid chromatography

capillary electrophoresis

electron capture dissociation

cerebrospinal fluid

amyloid β-peptide

Alzheimer’s disease.

Materialvetenskap

Materials science

Teknisk materialvetenskap

Synthesis of Thiophene-Vinyl-Benzothiazole Based Ligand Analogues for Detection of Aβ and Tau Pathology in Alzheimer's Disease

Johansson, Joel

January 2024

As of today, Alzheimer’s disease is the leading cause of dementia among neurodegenerative disorders, affecting many millions of people worldwide. As the average life span of populations increase, more and more people succumb to the illness each year. Like other neurodegenerative disorders, Alzheimer’s disease can be attributed to the accumulation of protein aggregates in the brain. These amyloid-β peptides and tau proteins can presumably be detected in the brain many years before the onset of clinical symptoms. Development of fluorescent ligands, capable of binding to these neuropathological hallmarks and highlighting them, could serve as molecular diagnostic tools and facilitate an early diagnosis of the disease. The method could also be useful in studying disease progression and evaluating the effects of novel treatments. One such ligand is HS-259. The aim of this project was to synthetize different analogues of HS-259, and test their selectivity towards the aforementioned aggregates in brain tissue from an individual with Alzheimer’s disease. Staining of tissue samples with analogue solution enables visualization of aggregate sites through fluorescence imaging. In the end, five analogues were synthetized, albeit in relatively low overall yields. Synthetic methods included Suzuki-Miyara cross-couplings, Ullmann-type arylations and condensations. Liquid Chromatography-Mass Spectrometry (LC-MS) and Nuclear Magnetic Resonance (NMR) were used for analysis of the compounds. Two of the five analogues could be tested for staining of aggregates and assessed for photophysical characteristics, i.e. absorption- and emission spectra. One analogue stained both amyloid-β aggregates and some tau aggregates, whereas the other stained neither. Since only two analogues were tested and rendered inconsistent results, further studies are needed to assess the binding properties of HS-259 analogues in general.

Alzheimer's disease

neurodegenerative disorders

protein aggregates

molecular ligands

amyloid-β

Aβ

amyloid-beta

tau

diagnosis

HS-259

staining

brain tissue

Suzuki coupling

Ullmann arylation

condensation

NMR

nuclear magnetic resonance

LC-MS

liquid chromatography

neuropathological hallmarks

absorption spectra

emission spectra

synthesis

plaques

symptoms

neuropathology

thiophene-vinyl-benzothiazole

TVBT

ligand analogues

N-arylation

Knoevenagel

preparative LC

PBS

phosphate buffered saline

treatments

AD

mechanisms

thiophene

benzothiazolium

fluorescence imaging

bTVBT

bi-thiophene-vinyl-benzothiazole

detection

Suzuki-Miyara

Organic Chemistry

Organisk kemi

Development and Validation of Novel Polymer-based DNA Delivery Systems for Effective and Affordable Non-viral Gene Therapies

Zhang, Jun

23 May 2022

No description available.

Animal Diseases

Biochemistry

Biology

Biomedical Engineering

Biomedical Research

Cellular Biology

Developmental Biology

Engineering

Environmental Health

Health

Health Sciences

Immunology

Materials Science

Medicine

Molecular Biology

Molecules

Nanoscience

Nanotechnology

Neurobiology

Neurology

Neurosciences

Organic Chemistry

Pharmaceuticals

Pharmacy Sciences

Polymer Chemistry

Polymers

Public Health

Toxicology

Therapy

Virology

gene therapy

gene delivery

DNA delivery

polymer

non-viral

nonviral

therapeutic

polyethylenimine

PEI

in vitro

in vivo

C2C12

muscle

muscular

M17

neuro

neural

brain

transfection

cell penetrating peptide

neurodegenerative

Alzheimer

Parkinson

prion

PrP

N1

C1

amyloid-β

Aβ

Tau

α-synuclein

αSyn

α-cleavage

ADAM8

pscAAV