The gene sequence determines the codon, which in turn determines the aminoacid, which in turn determines the tridimensional shape on the protein, which in turn determines the shape of the active site, which in turn determines what it'll be catalysing.
This indicates that the DNA codes for the same key enzyme in the three different species of soil bacteria, suggesting a common evolutionary origin or functional importance. The removal of this DNA could potentially affect the enzyme's functionality and provide insights into the enzyme's role in each species. Further experiments could be conducted to investigate the specific effects of this genetic manipulation on the bacteria's metabolism and survival.
The cell follows genetic instructions encoded in the DNA to determine which enzyme to make. This process involves gene expression, where specific genes are transcribed into messenger RNA (mRNA) and then the mRNA is translated into the corresponding enzyme. Ribosomes in the cell read the mRNA sequence and assemble the amino acids into the specific enzyme structure based on the genetic code.
Scientists think it is valuable to link genetic codes with medical histories for diagnosis and management of genetic disorders.
The structural gene of an operon codes for a specific protein or enzyme. This gene contains the information needed to synthesize a functional protein that carries out a particular biological function.
The function of DNA is to store genetic information that codes for the synthesis of proteins in living organisms. It serves as the blueprint for an organism's development, growth, and function. DNA is passed from parents to offspring and is responsible for the heredity of traits.
No, DNA is not an enzyme. DNA is a nucleic acid acting as the blueprint of life. It consists of a series of codes which are specific for definite species. These codes are called genetic codes and code for amino acids which relate to characteristic functions of the organism.
No. Genetic codes are found on DNA or RNA. These code for the creation of proteins - and all products which determine the structure and function of an organism.
This indicates that the DNA codes for the same key enzyme in the three different species of soil bacteria, suggesting a common evolutionary origin or functional importance. The removal of this DNA could potentially affect the enzyme's functionality and provide insights into the enzyme's role in each species. Further experiments could be conducted to investigate the specific effects of this genetic manipulation on the bacteria's metabolism and survival.
Genetic codes are inherited.
The cell follows genetic instructions encoded in the DNA to determine which enzyme to make. This process involves gene expression, where specific genes are transcribed into messenger RNA (mRNA) and then the mRNA is translated into the corresponding enzyme. Ribosomes in the cell read the mRNA sequence and assemble the amino acids into the specific enzyme structure based on the genetic code.
The gene that codes for an enzyme needed by proteins is typically referred to as the structural gene. It contains the instructions for synthesizing the specific enzyme required for various cellular processes. The enzyme is then produced based on the information encoded in this gene.
The nucleolus can be compared to the mayor of a city. It is the part of the cell that makes all the genetic codes and tells the cellular parts what to do.
Iceland sold its residents genetic codes to a biotechnology company.
The primary function of nucleic acids is to store and transmit genetic information. DNA carries the genetic instructions for the development, functioning, growth, and reproduction of all living organisms, while RNA plays a role in protein synthesis and gene regulation.
contains genetic codes that make the cell function and do its job properl not sure to the second part
Scientists think it is valuable to link genetic codes with medical histories for diagnosis and management of genetic disorders.
No. The genetic code is passed on through the DNA.