Universities throughout the world offer academic courses. A course takes one term to complete, and it usually focuses on a specific subject area. After completing the course, the student often receives credit towards graduation.
What is a course in genetics and genomics? This is an exciting class available to students who want to learn more about the field of genetics. The course often focuses on genomics, a discipline of genetics. While in school, students learn about DNA sequencing and the structure of genomes. Some courses also discuss biotechnology. Depending on the course, there may be requirements for enrollment. At the end of the course, it is common for students to complete an exam.
There are several benefits to taking a class in genetics and genomics. This course can provide students with helpful knowledge for future schooling and future careers. It might also help students qualify for better jobs or research opportunities. Many students find the subject matter to be exciting and intriguing.
The cost of enrolling in a course in genetics and genomics varies depending on the school. Each university charges their own fees, so you can find more details about the cost with the school you want to attend. Students usually find the cost of education to be a valuable investment into their future.
Students who complete this course often continue to take additional courses and work toward graduation. Once they receive their degree, they may be qualified for various jobs. It is common for people to find work in the healthcare industry. Some people move on to work as genetic counselors, while others focus their efforts on research.
If you want to learn more about genetics and genomics, it is important to find the right program for your needs. Search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.
Understand how genetics influence the development and spread of cancer, with this free, introductory online course.
What is the one thing that all cancers have in common? They begin as mutant or rebel cells! In this course, we will explore how changes in cancer genetics and epigenetics enable these cells to grow uncontrollably, by exploiting our blood vessels and immune system along with other systemic changes.
Finally, we will discuss how our understanding of genetics has helped both refine conventional treatments like radiation and chemotherapy, and inform the design of new treatments that can target specific proteins within cancer cells.
What topics will you cover?
What is cancer and why do we get it?
How rogue cells behave: oncogenes, tumor suppressor genes, and apoptosis in cancer development...
Discover how genetics is revolutionizing the detection and treatment of cancer, with this free online course.
Cancer Research UK estimates that 1 in 2 people in the UK will be diagnosed with cancer during their lifetime. It is a disease that impacts on most people’s lives at some stage. So understanding cancer and the development of new treatments is of intrinsic interest to us all.
This free online course is open to anyone, although it is designed for individuals with a prior interest in biology, including current undergraduate students, and nurses or medics who want to further their knowledge in this area.
Over six weeks, we will examine three key questions about cancer diagnosis and treatment:
Where have we come from?
Where are we now?
And where are we going?
The course will offer insights into patients’ experiences and enable discussions on key issues. Guest lecturers will include active researchers and those involved in direct patient care....
Explore how the unraveling of the genetic code has led to a deeper understanding of genetic diseases and cancer.
Understand the role of genes in cancer and genetic disease
It’s widely known that some diseases run in families. The discovery of the structure of DNA and the unraveling of the genetic code has led to a deeper understanding of such diseases. We now know more about the genetic basis of cancer and how cancer cells are formed and reproduce. On this course, you’ll explore the structure of DNA, its processes and learn how genetic disease results from DNA alterations. You’ll look closely at the nature of these changes, causes and risk factors – this is vital in the case of cancer, as prevention has proved to be an effective way of managing this disease.
What topics will you cover?
The chemical structure of DNA, genes, and chromosomes.
The importance of DNA in understanding the causes of genetic diseases.
DNA replication and cell reproduction.
The role of genes and proteins in controlling the activities of the cell and the cell cycle.
How genes and chromosomes can be permanently altered when mistakes happen during DNA replication.
The wide variety of different agents that can cause cancer.
The differences between normal cells and cancer cells.
Causes of genetic disease.
Different types of genetic diseases and how they may arise.
What will you achieve?
Learn how developments in genomics are transforming our knowledge and treatment of conditions such as diabetes.
There have been huge advances in the field of genetics in the last 10 years since the sequencing of the first human genome in 2003. It is now possible to analyze all 20,000 human genes in a single experiment, rather than focussing on one gene at a time. We are in the genomics era.
This free online course will introduce the topic of genomics, using the University of Exeter’s research expertise in diabetes, to illustrate the clinical application of current genomics knowledge.
Explore the impact of genomic testing
We will use patient experiences to discuss the impact and value of a genetic diagnosis for diabetes for patients, their families and the clinicians responsible for their care. You will learn about the value of understanding the underlying pathological mechanism of a disease, to enable the progression from genomic testing to improvements in clinical care....
Personalised medicine. Precision medicine. Individualised medicine. Customised medicine. Targeted medicine. All buzzwords of recent years that excite, confuse and infuria
Personalised medicine. Precision medicine. Individualised medicine. Customised medicine. Targeted medicine. All buzzwords of recent years that excite, confuse and infuriate the public, researchers and healthcare professionals. Broadly speaking, these terms all refer to the idea of tailoring treatment to individual patients based on their genetic code.
What does it all mean, and why should you care?
This free online course will discuss both the hype and hope surrounding the genetic revolution and personalized medicine. The impact of personalized medicine on clinical practice will likely yield significant benefits for patients, yet it raises a number of serious ethical and legal issues for health professionals, patients, and the community....
This free online course will provide healthcare professionals with a basic grounding in genomic medicine. It will introduce you to the new genomic technologies that are r
Why join the course?
This free online course will provide healthcare professionals with a basic grounding in genomic medicine. It will introduce you to new genomic technologies, which are revolutionising medicine and will, in time, provide the mainstay of patient diagnosis, treatment and disease prevention.
Discover the potential of genetics in healthcare
The course will give you an awareness of genomic technologies and the data they generate. With ready access to genomic data promised by transformational NHS initiatives such as the 100,000 Genomes Project, genomic data will be integral to all sectors of medicine. By the end of the course, you will understand the power and the challenges associated with these new technologies and data, enabling you to make appropriate referrals and evidence-based management decisions and use genomic results for patient benefit, without compromising patient safety....
Umeå University - Faculty of Science and Technology
The separate courses includes lectures, seminars, and practical laboratory work. Immunology covers the organization and development of the immune system, its activation u
Infection, Neurobiology, and Genetics
The separate courses include lectures, seminars, and practical laboratory work.
Immunology covers the organization and development of the immune system, its activation upon stimulation, the various effector mechanisms involved in the innate and adaptive immune responses (cellular and humoral immunity), immunological memory, tolerance mechanisms, transplantation immunology, autoimmunity, hypersensitivity, immune deficiencies, and the defense mechanisms against different pathogens.
The Bacterial Physiology and Pathogenesis course will highlight the intriguing world of bacteria. It will give insight into the bacterial diversity and some of their distinctive habitats. It will illustrate in molecular detail the regulatory mechanisms of microbial adaptation to these varied environments. It will discuss the role of horizontal gene transfer in bacterial evolution and the acquisition of new coding potential, such as antibiotic resistance. The course will present the current state of knowledge regarding pathogenic mechanisms and the major disease-causing bacteria that use them. This will include an explanation at the molecular level of various pathogenic strategies such as motility, biofilms, quorum sensing, secretion systems, toxins, adhesion factors and immune evasion mechanisms. In the face of widespread antibiotic resistance among leading bacterial pathogens, new anti-bacterial treatment and prevention options will also be addressed. The Neurobiology course gives the student extended knowledge about how the nervous system is organized, and how it functions in order to change physiological state of neuronal circuits which underlies the generation of behavior. Thus, the nervous system is explored at molecular, cellular, systems and behavioral levels. The Genetics course aims to provide knowledge...