Organisms produce different types of proteins for specific features because of variations in their genetic makeup. Some organisms may have a single gene that codes for a specific protein, while others may have multiple genes that code for different variations of the same protein. This genetic diversity allows for different levels of complexity and specialization in organisms.
No, protein is a macromolecule that can serve as a building block for enzymes, but not all proteins are enzymes. Enzymes are a specific type of protein that catalyze biochemical reactions in living organisms.
Introns are important for gene expression and protein diversity in organisms because they allow for alternative splicing, which enables a single gene to produce multiple different proteins. This increases the diversity of proteins that can be made from a limited number of genes, leading to greater complexity and functionality in organisms.
The most common protein produced by transgenic organisms is insulin.
Cells are able to produce proteins required under specific conditions through a process called protein synthesis. This process involves the transcription of DNA into messenger RNA (mRNA) and the translation of mRNA into proteins by ribosomes. Cells can regulate protein production by controlling the expression of specific genes in response to external signals or environmental cues.
The corn was resistant to disease because of its hybrid genes.
they produce protein! what grade are you in?
gene
gene
No, prokaryotic cells do not have a protein capsid. Protein capsids are a characteristic feature of viruses, which are non-living entities that infect cells. Prokaryotic cells, such as bacteria, are living organisms that do not possess a protein capsid.
No, protein is a macromolecule that can serve as a building block for enzymes, but not all proteins are enzymes. Enzymes are a specific type of protein that catalyze biochemical reactions in living organisms.
gene
Transgenic organisms could be used to make a new type of protein. For example, give a bacteria a new gene. The bacteria can then make the protein coded by the new gene. The protein may end being something such as human insulin or some other protein the bacteria don't normally produce. Your welcome Habs 13
Certain organisms (including certain species' of jellyfish) have a specific code of DNA that when transcripted and read, produces a protein that causes bioluminescence. This gene can also be used by genetic engineers to check if a specific gene has been uptaken, as this gene can work in any organism
The sections of DNA that code for a specific protein are called genes. Genes are made up of sequences of DNA that provide the instructions for synthesizing proteins through the process of transcription and translation. Each gene contains the information needed to produce a specific protein.
Amino acids. There are twenty different amino acids that nature uses routinely to produce proteins. Nature has a very specific order for incorporating these amino acids to produce any specific protein. This order is coded by the genes of the organism and in an elaborate way, the code is interpreted into the order of amino acid incorporation during protein synthesis.
The smallest segment of DNA needed to produce a polypeptide or protein is a gene. A gene contains the instructions for making a specific protein through the process of transcription and translation. The gene includes sequences that code for the protein as well as regulatory regions that control its expression.
Introns are important for gene expression and protein diversity in organisms because they allow for alternative splicing, which enables a single gene to produce multiple different proteins. This increases the diversity of proteins that can be made from a limited number of genes, leading to greater complexity and functionality in organisms.