A protein cannot perform its biological function, if it is not in the correct shape. Sometimes an incorrectly folded protein will become a very dangerous toxin called a prion.
It will loose its correct shape. It will not be able to perform its function
The shape of mRNA is important in protein synthesis because it determines how the mRNA molecule interacts with other molecules involved in the process. The specific shape of mRNA helps to guide the ribosomes in reading the genetic code and synthesizing the correct protein. If the mRNA shape is altered, it can affect the efficiency and accuracy of protein synthesis.
The correct sequence of events in forming a protein is transcription, where the DNA is transcribed into mRNA, followed by translation, where the mRNA is decoded to build a specific sequence of amino acids, and finally, post-translational modifications that help the protein fold into its correct shape and function properly.
When a protein's shape is altered, it may lose its functionality. This can disrupt its ability to interact with other molecules and carry out its specific biological functions. The altered protein may also be targeted for degradation by the cell's quality control mechanisms.
The shape of mRNA is important in protein synthesis because it carries the genetic information from DNA to the ribosome, where proteins are made. The specific shape of mRNA allows it to be read by the ribosome in a way that ensures the correct amino acids are assembled in the right order to make the protein encoded by the gene.
When the shape of a protein is altered, it can affect its ability to function properly. Proteins rely on their specific shape to interact with other molecules and carry out their biological roles. If the shape is changed, the protein may not be able to bind to its target molecules or perform its intended function, leading to potential disruptions in cellular processes and overall health.
The shape of mRNA is important in protein synthesis because it determines how the mRNA molecule interacts with other molecules involved in the process. The specific shape of mRNA allows it to be read by ribosomes, which are responsible for translating the genetic code into proteins. If the mRNA molecule is not the correct shape, it may not be able to properly bind to the ribosome, leading to errors in protein synthesis.
The shape, conformation, affect its function by determining what the shape is some proteins are long and fibrous : those form hair and form blood clots ... Some are globular and can function as enzymes which transport oxygen. The shape of a protein affects the function !
DNA determines a protein's shape by determining the sequence of the amino acids in a protein.
because the shape of a protein allows it to perform its particular job
because the shape of a protein allows it to perform its particular job
The shape of a protein allows it to perform its particular job