Solutions of Molecular Basis Of Inheritance from EMBIBE CHAPTER WISE PREVIOUS YEAR PAPERS FOR BIOLOGY
Embibe Experts Biology Solutions from Chapter 6 - Molecular Basis of Inheritance
The detailed solutions to all the exercises of Molecular Basis Of Inheritance from EMBIBE CHAPTER WISE PREVIOUS YEAR PAPERS FOR BIOLOGY for 12th Meghalaya Board are provided here. The topics covered are such as Translation, Transcription and, Dna Fingerprinting. Students can practice frequently asked questions from this chapter.
Practice Other Topics from Molecular Basis of Inheritance
This topic provides a detailed description of the structure of the polynucleotide chain and packaging of the DNA helix. DNA is a double-stranded polynucleotide chain that runs in an antiparallel direction.
This topic explains the process of semi-conservative DNA replication with experimental proof. Replication is the process in which the DNA strands would separate and act as a template strand for the synthesis of a new complementary strand.
The topic describes the three regions in the DNA transcription unit. It also briefs the types of RNA in bacteria and the process of transcription in bacteria.
This Chapter from EMBIBE CHAPTER WISE PREVIOUS YEAR PAPERS FOR BIOLOGY has 8 topics to practice on Molecular Basis of Inheritance
This topic describes the various stages involved in the process of translation. The translation is the process of synthesis of protein from RNA.
This topic highlights the four levels, where gene expression in eukaryotes could be regulated. Further, it explains the elucidation of lac operon with its schematic representation.
This topic describes the goal and salient features of the human genome project. The human genome project is associated with the rapid development of bioinformatics. It also discusses its application and future challenges.
This topic describes the various stages involved in the process of DNA fingerprinting. DNA fingerprinting is the method used to recognize and analyse the variations present in individuals of a population at the DNA level.