Class 12 Mendelian Genetics video in Nepali L-2 | Monohybrid Cross |Dihybrid Cross| Learn with mitra скачать в хорошем качестве

Class 12 Mendelian Genetics video in Nepali L-2 | Monohybrid Cross |Dihybrid Cross| Learn with mitra

Hello This is the second lecture of Mendel's law Lecture 1 :    • Class 12 Mendelian Genetics video in Nepal...   Important Question of Biology:   • Important Question of Biology Class 12 | N...   Class 12 Genetic Material :    • Class 12 Genetic Material One Shot video i...   Second Channel:    / @amazinglyvlogs   Instagram ➡️  / amezdevkota   About me : I am Amez Limbu (Devkota). I am from Kathmandu. I love to teach so i pursuing YouTube as part time. I make friendly educational entertaining video. I want to fulfill your needs of education for 🆓 Free Free !!!!!!!! Time stamps Chapter 0:00 - 0:43 Introduction 0:43 - 8:10 Mendel's monohybrid cross 8:10 Mendel's dihybrid cross Keywords: 1.what is the meaning of mendelian genetics 2. what is mendel law of inheritance 3. what are mendelian disorders 4. what is monohybrid inheritance 5. what is mendel's law of inheritance 6. what is non mendelian inheritance 7. what is mendelian genetics 8. what is mendelian inheritance 9. what is monohybrid cross Mendelian genetics is a branch of genetics that deals with the inheritance patterns of traits from parents to offspring. The principles of Mendelian genetics were discovered by Gregor Mendel, an Austrian monk who conducted experiments on pea plants in the mid-1800s. Two of the most important concepts in Mendelian genetics are monohybrid cross and dihybrid cross. A monohybrid cross is a genetic cross between two individuals that differ in only one trait. For example, if you cross two pea plants, one with purple flowers and one with white flowers, you will get offspring that are either purple or white. This is because the flower color trait in pea plants is controlled by a single gene with two alleles: the dominant purple allele and the recessive white allele. In a monohybrid cross, the genotype and phenotype ratios of the offspring are predictable based on the laws of segregation and independent assortment. A dihybrid cross, on the other hand, is a genetic cross between two individuals that differ in two traits. For example, if you cross two pea plants that differ in both flower color and seed shape, you will get offspring with different combinations of flower color and seed shape. In this case, each trait is controlled by a separate gene with two alleles. The genotype and phenotype ratios of the offspring in a dihybrid cross are also predictable based on the laws of segregation and independent assortment, but the calculations are more complex than in a monohybrid cross. In summary, Mendelian genetics is based on the principles of monohybrid and dihybrid crosses, which describe the inheritance patterns of traits from parents to offspring. These concepts are fundamental to understanding how genetic information is passed down through generations, and they have broad applications in many areas of biology and medicine. #genetics #class12 #mendel #monohybridcross #dihybridcross #inheritance #neb Queries Mendel Genetics Class 12 Mendel law Mendelian Genetics Mendel Law of Inheritance Mendel Monohybrid Cross Mendel Dihybrid Cross Monohybrid Cross and Dihybrid Cross