Masters In Plant Breeding And Genetics In Canada

Masters Degree in Plant Breeding and Genetics is offered by University of Saskatchewan. The school has a long history of research, which was started in 1911. According to the school website, “The first head of the Department, Professor John Henry Skinner, established an internationally recognized research program with a focus on cereals that has continued unabated until today.” The program offered by the University of Saskatchewan offers expertise on plant breeding and genetics. Masters In Plant Breeding And Genetics In Canada

So you want to study plant breeding and genetics in Canada? What a great idea! There are several great schools with strong programs in the area. Here’s a quick overview of some of the top programs for you.

The University of Saskatchewan, located in Saskatoon, offers an exciting program that will grant you a Master’s degree as well as an Advanced Certificate in Plant Breeding and Genetics. This is one of only two such programs in Canada, so it’s definitely worth checking out if you’re serious about your future career path. The program is just over two years, and students have the opportunity to do a section of research that can be applied towards their thesis requirement. You’ll have access to internationally renowned instructors and researchers, which is sure to help you get ahead in your field.

McGill University offers a Masters of Science degree with a concentration in plant breeding and genetics as well. This program is very highly ranked by U.S. News and World Report and puts you at the forefront of this exciting field of study. McGill is located in Montreal, so it’s likely you’ll enjoy living here as well as studying!

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Master of Science in Genetics and Plant Breeding Top Colleges, Syllabus, Scope and Salary 2022

The 2-year MSc Genetics and Plant Breeding program is a postgraduate program that was designed to help students learn more about the field of Agriculture. Students who are interested in learning how to apply concepts like genetics and plant breeding can use this program to continue their education in this area.

Those who want to participate in this program will need to have completed their bachelor’s degree, which can be in a related field like agriculture, biotechnology, or another similar area. Because of the focus on relevant fields of study, students will be able to easily transition into this graduate program.

Students who complete the MSc Genetics and Plant Breeding program will be prepared for a variety of careers that focus on agricultural practices. This can include working as a geneticist or plant breeder, focusing on the development of new species or improving upon existing ones. They could also work as an agricultural consultant, providing advice to those who are establishing new farms or looking to improve upon their current set-up. Another option is working as an agronomist, which involves measuring land quality and helping determine the best ways to use it for farming purposes.

The admission into the course is usually based on entrance exams. There are few institutes that conduct admission based on merit. The admission into the state and central agriculture universities is conducted through ICAR AIEEA PG. The other private colleges conduct their own entrance exams. Some of these exams are LPUNEST, SAAT, OUAT, SOETAP, etc

Punjab Agriculture University, Ludhiana, IARI New Delhi, TNAU Coimbatore, and Banaras Hindu University are the top government colleges that offer this course. The average annual course fee ranges from INR 6,000 to INR 2,40,000 per annum.

After completion of the course, the graduates can work as Plant Breeder, Plant Geneticist, Farm Manager, Agronomist, Assistant Professor, Associate Researcher, etc. The average salary after completion of this course is around INR 3 lakh to INR 5 lakh per anum.

The candidates can pursue doctorate courses after this course. Some of the options are PhD in Genetics and Plant Breeding, PhD in Agronomy, PhD in Horticulture, etc.

MSc Genetics and Plant Breeding Admission Process

There are many options for getting into a Master’s program. National and state-level entrance tests are widely available, and private institutions often have their own entrance tests as well. These tests usually focus on your academic performance in the past, and they can help you gain admission to one of these programs.

Most countries offer a variety of options for students who want to pursue a Master’s degree, but the requirements for admission may vary. In addition to your academic performance, there may be other factors that can affect your eligibility for acceptance into these programs, such as your career objectives or your financial situation.

MSc Genetics and Plant Breeding Eligibility

To apply for this course, the candidates should fulfill the following requirements:

• They should have completed their bachelors in BSc Agriculture, BSc Agriculture (Hons), BSc Biotechnology, or any other related field.
• They should have a minimum aggregate of 60% in their bachelor’s from a recognized university.

Merit-Based Admissions

Various institutes refer to the bachelor’s level scores to select the students for this course. The candidates have to go through the following for this kind of admission:

• They will have to go to the official website of the institute they want to apply to.
• They can now register themselves and fill the online application form for admission, followed by paying the application fees.
• The students will be evaluated based on their academic scores and a merit list of selected students will be released.
• The shortlisted candidates will be called for counseling to finalize the course of their choice and for document verification.
• Once the candidates pay the admission fees, they will be enrolled in the course.

Entrance-Based Admissions

Admission into this course is usually conducted through exams like ICAR or state-level exams. The candidates may have to follow the following processes:

• The candidates will have to register themselves for the exams like ICAR or any of the state-level exams by filling the application form and paying the application fees.
• They will have the download the admit card and appear for the exam.
• The candidates will have to clear the minimum cut-off of the exam to get shortlisted. The merit list will be released with the names of candidates that are shortlisted.
• The shortlisted candidates will be called for counseling, where they will be finalizing their preferred course and college.
• They will be enrolled after document verification and submission of the admission fees.

Masters In Plant Breeding And Genetics In Canada

The Department of Plant Sciences offers graduate programs leading to the M.Sc. and Ph.D. degrees in plant breeding and genetics with a specialization in molecular biology, molecular genetics, or quantitative genetics. The department’s research program focuses on the genetic characterization and improvement of agronomically important crops such as wheat, canola, barley, and flax. Plant breeders use knowledge of genetics and biotechnology to develop new varieties of these crops that are better adapted to local growing conditions than current varieties or those grown outside of Canada.

Plant Breeding (MSc)

Massey University  Sciences

Full time February MSc 1.5 – 2 years

About the course

When you study the Master of Science (Plant Breeding) at Massey University you will become a member of a significant international scientific community responsible for global food security.

This plant breeding major is a unique qualification in New Zealand. This course will provide you with training in quantitative genetics & applied plant breeding methods, multisite experimental design, data analysis & interpretation, application of molecular tools in plant breeding and visits to field programs & interaction with applied plant breeders.

Take advantage of our globally-renowned expertise

This course will be taught by highly-skilled internationally-recognised and active researchers with expertise in; plant genetic resources, quantitative genetics, applied plant breeding, plant molecular

M.Sc. Candidate in Computer or Plant Sciences

University of Saskatchewan | Saskatoon, Saskatchewan | Canada | 

Brassica crops” (# 20180141)) in order to detect all genetic factors that are fundamental for the expression of the apomixis trait. The Master’s candidate will perform his/her study in the Apomixis Breeding

Master of Science in Genetics and Plant Breeding

Duration2 Years	LevelPost Graduation
TypeDegree	EligibilityGraduate or Equivalent

M.Sc. Genetics and Plant Breeding or Master of Science in Genetics and Plant Breeding is a postgraduate Plant Pathology course. The program is truly interdisciplinary, with membership from agronomy, biochemistry, botany, forest and wildlife ecology, genetics, horticulture, plant pathology, and statistics. Plant Breeding is the science and art of improving crop plants through the study and application of genetics, agronomy, statistics, plant pathology, entomology, and related sciences. The duration of the course is two years and its syllabus is divided into four semesters and some electives.

The specialization in plant breeding requires a solid background in general biology or agriculture. This includes courses in general biology or botany; organic chemistry; mathematics; physics; genetics; agronomy; biochemistry; microbiology; statistics; genetic engineering; and field crop production including forage crops. Employment for graduates with a degree in plant breeding can be found in colleges or universities as faculty members conducting research on plant improvement as well as teaching undergraduate students in biology/agriculture/botany courses. Graduates may also work for government agencies like the U.S. Department of Agriculture (USDA), state agricultural experiment stations or state departments of agriculture

M.Sc. Genetics and Plant Breeding Eligibility

• Aspiring students should have passed a bachelor’s degree and intermediate in the second division with at least 50% marks separately in both from a recognized university board.

M.Sc. Genetics and Plant Breeding Syllabus

Syllabus of Genetics and Plant Breeding as prescribed by various Universities and Colleges.

Sem. I
Sr. No.	Subjects of Study
1	Mendelian Genetics
2	Techniques in Cell Biology
3	Cytology
Sem. II
1	Molecular Genetics
2	Cytogenetics
3	Plant Breeding
4	Plant Biochemistry
Sem. III
1	Genetic Engineering
2	Plant Biotechnology
3	Environmental Genetics
4	Modern Methods in Crop Breeding
Sem. IV
1	Population Genetics
2	Developmental Genetics
3	Biosystematics
4	Elective Papers
5	Biophysics
6	Applied Palynology
7	Plant tissue culture
8	Transgenic plants
9	Biotechnology
10	Phytochemicals
11	Plant Cell Culture Technology

M.Sc. Genetics and Plant Breeding Colleges

• Chaudhary Charan Singh University – Meerut, Meerut
• Govind Ballabh Pant University of Agriculture and Technology, Pantnagar
• Sardar Vallabh Bhai Patel University of Agriculture & Technology, Meerut
• University of Kerala, Thiruvananthapuram

M.Sc. Genetics and Plant Breeding Course Suitability

• Candidates who want to improve varieties and genetic stocks for grain quality, yielding ability, and resistance to diseases and insect pests, maintain and evaluate the diversity of genetic stocks. 
• It is beneficial to develop improved cultivars, construct novel germplasms, and create innovative breeding technologies that will positively impact the production of food, feed and fibre in Nebraska and throughout the world. 
• Those who want to support local plant breeding and seed science programs to meet local needs and to respond to indigenous demands in participating countries in the sub-region are suitable for it.

How is Genetics and Plant Breeding Beneficial?

• Candidates should be dedicated, independent, and hardworking. 
• They should have the ability to work with diverse groups of people. 
• Students must have effective written and verbal communication abilities. 
• He/she must be willing to spend most of his or her time with a variety of animals and to work in risky situations where they are open to attacks like biting, scratching, etc. and can sustain injuries.

M.Sc. Genetics and Plant Breeding Employment Areas

• Agriculture Ministry
• Agriculture Sector
• Colleges & Universities
• Nurseries
• Plant Breeding Centres
• Plantation Crop Farms

M.Sc. Genetics and Plant Breeding Job Types

• Agronomist
• Application Support Specialist
• Application Support Specialist
• Conversion Centre Manager
• Corn Breeder
• Cotton Agronomist
• Launch and Support Specialist
• Plant Breeder
• Programmer Analyst
• Research Associate/Senior Research Fellow

Advance Courses in M.Sc. Genetics and Plant Breeding

• M.Phil. (Genetics & Plant Breeding)
• Ph.D. (Genetics & Plant Breeding)

Course Content

Theory

Unit I Genetics : Chromosomal theory of inheritance, Mendelian principles-Inheritance of one gene, two genes and multiple genes. Linkage, crossing over & recombination. Deviations from Mendelism-Sex linked inheritance, epistasis, pleiotropy, polygenic inheritance.

Unit II Gene Expression : Regulation of gene expression in prokaryotes and eukaryotes, RNA processing, post-transcriptional modifications. Gene silencing by RNA interference (RNAi), Epigenetics – imprinting and paramutations. Genomics and Proteomics: Prokaryotic Gene mapping and sequencing – Vibrio cholera and E.coli genomes; Human genome project; Comparative genomics; Functional genomics – DNA chips, expression profiling. Proteomics – 2D gel electrophoresis; DNA sequencing – Sanger dideoxy method; Shotgun sequencing; Next generation sequencing technology – pyrosequencing, 454 FLX Titanium sequencer etc.; Computational methods – BLAST etc.

masters in genetics

If you’re interested in a job in genetics and already have a relevant bachelor’s degree, many colleges and universities offer master’s degrees in genetics for you to consider. Here are eight types of genetics master’s degrees you may earn to help you start your career in the field:

1. Genetics

A Master of Science in genetics is a broad educational program that focuses on many aspects of the field. It explores different approaches and applications of genetics, or the study of genes and heredity. Students learn how people pass traits to their offspring through DNA and how it can affect their appearance, behavior and health. These master’s degree programs usually offer students the option to pursue a specialization within the field based on the areas of genetics that interest them. These specializations allow you to pursue a degree that focuses on a specific subject, such as health care or research.

2. Genetic counseling

A master’s degree in genetic counseling prepares a candidate for a career as a genetic counselor. These medical professionals perform tests and evaluations to determine if their patients or their patients’ families may be at risk for certain genetic conditions. These conditions may include physical or psychological disorders, and genetic counselors inform patients of their predisposition for these disorders to help them prepare for or prevent them. Genetic counselors often work in a medical setting, particularly with pregnant patients, so they usually complete academic work and clinical rotations to complete this degree program.

3. Human genetics

Human genetics is a master’s degree program that focuses on the study of genetic material and how it affects individuals, families and society. Candidates in human genetics master’s degree programs usually study genes from different perspectives, such as scientific, medical and public health. They may learn about the history of genetics and how the discipline has changed as new technology emerges, the role genes have in physical and mental health, ethical standards for studying and researching human genetic material and the effect of genes on social and public health issues.

4. Genetics and genomics

Students in genetics and genomics master’s degree programs focus their studies on genomes, which are complete sets of DNA. Genomics is an emerging area within the field that allows researchers to explore the structure of DNA, identify how its structure affects health and development, determine how it reacts to outside factors and map the location of specific genes in DNA to identify genetic concerns. Students who pursue this master’s degree may choose one or more areas to study, such as human, animal, bacterial or statistical genetics and genomics.

5. Molecular, cellular and developmental biology (MCDB)

A master’s degree program in molecular, cellular and developmental biology (MCDB) gives graduate students a broad area of expertise within the biological sciences. These programs typically include a curriculum that focuses on microbiological concepts like cellular, molecular and developmental biology, which includes genetics. Students may study in a classroom, laboratory or clinical setting, depending on the topic. Students who earn a master’s degree in MCDB may use it as a foundation for a doctoral degree in genetics.

6. Computational and quantitative genetics (CCQG)

Computational and quantitative genetics (CCQC) is a master’s degree program that focuses on using statistical and computational sciences to improve gene mapping processes. Students learn about how to develop tools that make gene mapping more comprehensive and intuitive, which may allow scientists to create new treatments for genetic conditions like epilepsy and mental health conditions. Graduates can become medical geneticists and may find a job in a health care facility, pharmaceutical company or biotechnology laboratory.

7. Genome bioinformatics

A Master of Science in genome bioinformatics (MSGB) is a master’s degree program that focuses on using data to develop tools and resources for studying genomes. A combination of biology and computer science, this degree program gives students knowledge and an educational background in studying, annotating and understanding genomic data and how it affects human lives. Earning a master’s degree in this field may prepare you for one of many careers in genetics, including positions at research centers, pharmaceutical companies and universities.

8. Genomics and health

A genomics and health master’s degree program offers students the opportunity to learn about genetics as they relate to individual, animal and plant health. These programs often include a curriculum that focuses on variations of DNA, their causes and how they relate to a person’s overall health. Students pursuing this degree research how chemicals, drugs and environmental factors contribute to disease by affecting genomes. After graduating, candidates may pursue jobs in laboratories or use their genetic research to influence regulations that can protect human and societal health.