What Are The Aim and Objective of a Biochemistry Course?

Biochemistry is a biochemical study that deals with the chemical processes of living organisms and related chemical processes. Biochemistry is a division of biology and chemistry, which can be further divided into three segments: metabolism, structural biology, and enzymes.

By the end of the 20th century, these three variants were able to work together to better explain the process of life.

Many biochemical methods and research have been able to uncover and develop all areas of life science. Therefore, biochemistry helps to understand the chemical basis that leads to processes between living cells and through biological molecules present within the cells. 

This in turn affects not only the understanding of tissues and organs but also the structure and function of living organisms. Therefore, biochemistry can also be defined as a study of molecular biology related to the molecular mechanism of biological phenomena.

To easily understand what biochemistry is, it can be expressed as a study of the chemical processes that occur in living and dead organisms, including humans, known as biochemistry studies. 

The importance and role of biochemistry in medical research are as follows: 

Biochemistry helps us understand the biological and chemical changes that occur in our bodies due to infections and illnesses, as well as the changes in physiological activity.

Biochemistry also helps doctors uncover the biochemical changes that occur in the body in response to associated disorders, based on the physical symptoms described by the patient. Many women and children around the world suffer from a variety of problems caused by changes in hormone levels in the body. 

However, biochemistry has revealed many aspects for understanding the hormonal properties that physicians can use to more accurately diagnose problems in terms of symptoms. Importance and role of biochemistry in vegetation and agriculture. It plays an important role in assessing the nutritional status of feeds for grains, legumes, poultry and cattle.

Research and development of better genotypes of plants and crops. Development of toxins and anti-chemical treatments-nutrients commonly found in cereals, especially cereal legumes. For example, Rakdal BOAA, peanut aflatoxin, etc. 

Now we will understand what the purpose of the Biochemistry course is. It is to help students by providing them with a deeper understanding of the core principles and topics of biochemistry and their experimental foundations and to give students a deeper understanding of special knowledge and selected aspects through master lectures and research projects. TangoLearn helps to find the best biochemistry course for you. 

This degree program aims to develop the main transferable skills required for academics. These include: 

Analytical and Presentation Skills 

The purpose of this course is to provide students with analytical and presentation skills. This is achieved with method and competence lectures, courses, seminars, and small group lessons. Students attend because they get: 

• Two journal clubs that guide students through a detailed analysis of their research papers. 
• Oral presentation of critical review and analysis of literature studies. 
• Survey and oral presentation of current biochemical topics. 
• A problem-solving approach to experimental data.  
• A short course for writing scientific reports. 
• A short course on basic statistics. 
• Practice small group discussions on topics under the heading “Science that Impacts Society” and report on a wide range of topics that integrate different science topics. 

Advanced scientific method 

This course aims to provide students with an understanding of the three areas of advanced scientific methodologies that are widely used: spectroscopic tools, molecular imaging, and bioinformatics. This is achieved through lectures, courses, seminars, and problem-based learning exercises in bioinformatics. 

At the end of the course, students should be able to demonstrate advanced knowledge and understanding in the following core areas: 

• Aspects of protein structure: Genome to proteome 
• Principles of globular protein structure, techniques for elucidating the structure, and approaches for predicting them from sequences. 
• The principle of protein behavior and molecular recognition in solution. 
• Principle of structure determination of membrane proteins. 
• Behavior and mechanism of enzyme kinetics 
• Intermediate products in enzyme-catalyzed reactions and their investigation. 
• Molecular formulation 
• The basics and applications of the latest imaging processes. 
• Bioinformatics 
• Identification / quantification of polypeptide similarity. 
• Identification of polypeptide families and superfamily. 
• Large sequence projects, data analysis including comparative analysis. 
• Mechanism and regulation of DNA transcription in animals 
• The role of common transcription factors that mediate the various steps of transcription initiation. 
• A model for proper temporal and spatial regulation of gene expression. 
• DNA Damage Repair and Integrity, Immortalization 
• The molecular basis of the processes involved in the DNA recombination and repair process. 

How does the combination of genetic and biochemical methods make an important contribution?

Apoptosis, a molecule used for disease function for the understanding of apoptosis and its involvement in disease processes. Through signal transduction in eukaryotes understanding of receptors that bind to guanine nucleotide-binding proteins (G proteins) and how their signals are transmitted in eukaryotic cells. Understanding of signal transduction related to tumor cell biology.

Oncogenes, tumor suppressor genes, and carcinogenesis, Molecular biology of cancer. There is a strong link to basic scientific aspects such as the current understanding of entering and exiting the cell cycle and the regulation of transitions between stages of the cell cycle. 

Research, analysis, and presentation skills 

At the end of the online biochemistry courses, students will be able to: 

• Prove knowledge of research project objectives, methods, results, and conclusions. 
• Demonstrate your ability to present your research results in writing by creating a written report on your research project. 
• A critical analysis of the original works of literature. 
• Orally investigate and present current biochemical topics. 
• Research and oral presentation of the analysis of original works. 
• Critically analyze experimental data. Use basic statistical techniques as needed.

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