Queen Mary, University of London (QMUL) • Biochemistry
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Modules Biochemistry at Queen Mary, University of London (QMUL)
Notes available for the following courses of Biochemistry at Queen Mary, University of London (QMUL)
Latest notes & summaries Queen Mary, University of London (QMUL) • Biochemistry
Part 1 of DNA Replication and repair, specifically looking at what nucleotides are, the structure and importance of their orientation within DNA. Briefly looks at the history of the DNA structure, associated replication model theories and the experiments used to come to the conclusion of the semi-conservative nature of DNA replication. 

Analyses the process of DNA replication in depth, how DNA grows in length and Okazaki fragments. Looks at proofreading mechanisms used to prevent frequent mutat...
A clear, concise diagram of the glycolysis cycle. All the chemical compounds are drawn out, and effective colour coding used to help you memorise the steps well.
First year, haemodynamics and blood vessels notes. This is an in-depth review of what the blood vessels are composed of and it's properties. I have hand drawn all my notes in the simplest format and created a easy to memorise table.

I have also added questions with direct answers underneath, so you can easily skim to notes and pick out the knowledge relevant.

Easy to read, colourful and hand drawn notes, perfect for aiding physiology studies.
First Year Biochemistry Lecture, covering Allostery.
In this topic, I go through what allostery is, the graphs that you ave to memorise to do with enzyme activity, and examples of the specific enzymes which show allostery and also haemoglobin. 

My notes are neat, concise, colourful and in-depth. Furthermore, I had draw my notes, so it's easier for you to understand this overwhelming topic. 

I hope you enjoy to read them as much as I did making them!
A detailed summary of cancer and apoptosis, exploring these two important areas of human biology. Analysis of cancers are, with examples included and the different types of cancers that exist. Delving into contributing factors and covering the processes of carcinogenesis and apoptosis in detail. Looks at how cancers spread and describing in detail the mechanism of angiogenesis, including activation factors of angiogenesis. Analyse how cancer cells spread by invasion and metastasis. Study in dept...
Part 2 of DNA Replication and repair, specifically looking at how chromosomes are replicated using accessory proteins and summarising all the proteins forming the machine in DNA replication. Analysing each of these proteins in detail: DNA topoisomerases, telomerase and so on. Briefly looking at the differences between eukaryotes and bacteria in terms of end-replication of chromosomes.
Analysing in detail the process of DNA repair, it's importance and the spontaneous changes that can give rise to...
These notes introduce first year students to the fundamental principles underpinning organic chemistry. This module focuses on reactivity, using a mechanistic approach to discuss topics such as nucleophilic substitution, elimination reactions, electrophilic addition, aromatic chemistry and carbonyl chemistry. Additionally, the chemistry associated with a variety of common functional groups and classes of organic compounds. Emphasis is placed on developing understanding of the mechanistic rationa...
These notes introduce first year students to the fundamental principles underpinning organic chemistry. A substantial introduction, covering topics such as structure, bonding, stereochemistry, acidity and curved arrow formalism will provide students with the basic tools required to explain and predict the structure and reactivity of organic molecules. Focus is then given to reactivity, using a mechanistic approach to discuss topics such as nucleophilic substitution and elimination reactions.
These notes provide an introduction to physiology. The structure and function of major systems including the nervous, digestive, respiratory and circulatory systems are surveyed in a variety of different taxa. In addition, physiological functioning including homeostasis, temperature regulation, gas exchange, digestion and endocrine systems are all reviewed.
Vast amounts of notes about cellular biology