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Updated in [September 26th, 2023]

What does this course tell?
(Please note that the following overview content is from the original platform)
Are you looking to master the fundamentals of plant genetics? This course will teach you how plants have evolved and their different classifications and especially inheritance in plant genetics. It deals with the selective advantage of reproduction which can either be sexual or asexual. In asexual reproduction, the offspring has the same DNA and alleles, whilst in sexual reproduction, separate organisms combine their alleles, thereby increasing the chances of preserving copies of their alleles. Discover the different causes of changes in DNA and identify the other manufactured mutagenic chemicals that seem to be multiplying in our world. Statically, these mutations are harmful, and the larger-sized mutations significantly increase the probability of affecting a crucial part of the DNA and you will discover the need for DNA repair processes that help counter the adverse effects of mutations.
Firstly, the course will introduce the different concepts of evolution and how evolution by natural selection has changed the abundance of alleles present in various species. How quickly does the process of evolution occur? This course will highlight how slow evolution occurs when compared to the duration of human life. The course content also covers natural selection, an essential factor in evolution. It describes how those species which conform to a particular environment are more likely to survive when compared to those that are less adapted. In addition, you will also work through the two conditions that must be met for natural selection to occur. The first one has to do with the offspring being able to grow to maturity in that particular habitat, and the second one relates to the need for the progeny to have different types of alleles. An overview of the different properties of gymnosperms and all their economic relevance is essential for you to know as someone in botany. Gymnosperm plants grow in all parts of the world, although they tend to thrive in temperate regions. What are the different classifications of gymnosperms? This course will give you an overview of the diverse classes and orders of gymnosperm plants. You will analyze why flowering plants or angiosperms are rated as the most successful and abundant plants in the world today. The final section of the course studies the factors influencing the formation of fossils, evolution of flowering plants, life cycle of angiosperms, ecological classification of plants, and ecosystem structures. 
This plant genetics course will interest anyone interested or involved in plant genetics such as those in botany, biology or environmental studies. The basics of plant genetics are an important area of expertise because it forms the basis for what we know about plants, pollination, environmental interactions and much more.


We considered the value of this course from many aspects, and finally summarized it for you from two aspects: skills and knowledge, and the people who benefit from it:
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What skills and knowledge will you acquire during this course?During this course, students will acquire the following skills and knowledge:
1. Understanding of plant evolution: Students will learn about the evolution of plants and their different classifications. They will gain knowledge about how plants have evolved over time and the factors that have influenced their evolution.
2. Inheritance in plant genetics: Students will learn about the inheritance patterns in plant genetics. They will understand the difference between asexual and sexual reproduction and how alleles are passed on to offspring.
3. Causes of changes in DNA: Students will learn about the different causes of changes in DNA, including mutations and mutagenic chemicals. They will understand the harmful effects of mutations and the need for DNA repair processes.
4. Evolution by natural selection: Students will gain an understanding of the concept of natural selection and its role in evolution. They will learn how species that are well adapted to their environment are more likely to survive and reproduce.
5. Properties and classifications of gymnosperms: Students will learn about gymnosperm plants and their economic relevance. They will study the different classes and orders of gymnosperms and understand their distribution and characteristics.
6. Evolution of flowering plants: Students will gain knowledge about the evolution of flowering plants and their life cycle. They will learn about the factors influencing the formation of fossils and the ecological classification of plants.

Who will benefit from this course?
This course on Understanding Plant Genetics will benefit individuals interested or involved in plant genetics, such as those in the fields of botany, biology, or environmental studies. It is particularly relevant for those who want to master the fundamentals of plant genetics and understand how plants have evolved and are classified.

Professionals in botany will find this course valuable as it covers topics such as the different classifications of gymnosperms and their economic relevance. It also explores the evolution and life cycle of angiosperms, which are the most successful and abundant plants in the world today. This knowledge is essential for botanists studying plant diversity and ecosystem structures.

Biologists specializing in genetics will benefit from this course as it delves into the inheritance patterns in plant genetics. It explains the selective advantage of sexual and asexual reproduction, the causes of changes in DNA, and the need for DNA repair processes. Understanding these concepts is crucial for geneticists studying plant breeding, genetic engineering, and the impact of mutations on plant populations.

Environmental studies professionals will find this course useful as it provides insights into the ecological classification of plants and their interactions with the environment. It also discusses the factors influencing the formation of fossils, which can provide valuable information about past plant species and ecosystems. This knowledge is important for environmental scientists studying plant conservation, ecosystem dynamics, and climate change.

Course Syllabus

Plant Genetics

Course assessment