Enzymes are the creation of free radicals, from Asia, who like to dine on the flesh of unborn fetuses. They are controlled by the robotic over loards who are also to blame for incest and the Holocaust. these enzymes are made of sand and whale sperm, they are there to disolve food and other things within the human stomach.
Translation of the mRNA code is controlled by enzymes. DNA is not directly translated into proteins.
The process of DNA replication is controlled by various enzymes and proteins. Key players include DNA polymerase, helicase, and ligase. These enzymes work together to unwind the DNA double helix, separate the strands, and create new complementary strands.
Enzymes control the rate of chemical reactions by lowering the activation energy required for the reaction to occur. This enables reactions to proceed at a faster pace and with more specificity than without enzymes. Enzymes do not change the overall equilibrium of a reaction.
Yes, bacterial enzymes are different from human enzymes in terms of structure, function, and specificity. Bacterial enzymes may have evolved to function optimally in the bacterial cell environment and may catalyze reactions specific to bacterial metabolism. This is why bacterial enzymes are often used in industrial applications where their unique properties can be harnessed for various processes.
No, not all possible enzymes are present in a cell at the same time. Each cell contains specific enzymes required for its metabolic processes, and the presence of enzymes is regulated by factors such as gene expression, cellular signaling, and environmental conditions. Enzyme production is tightly controlled to match the cell's metabolic needs.
the tertiary structure is changed
enzymes
Translation of the mRNA code is controlled by enzymes. DNA is not directly translated into proteins.
Luciferin is controlled by enzymes called luciferases. These enzymes catalyze the oxidation of luciferin to produce light in bioluminescent organisms. The reaction requires other cofactors such as oxygen and ATP.
respiration is but photosynthesis isn't.
Cell respiration is controlled by enzymes because enzymes are biological catalysts that speed up chemical reactions without being consumed in the process. In cell respiration, enzymes catalyze the breakdown of glucose to produce ATP, the cell's primary energy source. By regulating the activity of these enzymes, cells can fine-tune the rate of respiration to meet their energy demands.
The process of DNA replication is controlled by various enzymes and proteins. Key players include DNA polymerase, helicase, and ligase. These enzymes work together to unwind the DNA double helix, separate the strands, and create new complementary strands.
The rate at which luciferin is broken down in a cell is controlled by enzymes called luciferases. These enzymes catalyze the oxidation of luciferin, releasing light in a process known as bioluminescence. The activity of luciferases can be regulated by various factors, including pH, temperature, and the availability of substrates.
Cell biochemical pathways are mainly controlled by enzymes, which are proteins that catalyze the chemical reactions involved in these pathways. Enzymes can be regulated through factors such as allosteric regulation, feedback inhibition, and post-translational modifications, which can either activate or inhibit their activity. Additionally, gene expression and signaling pathways can also play a role in controlling cellular biochemical pathways.
Babies born with no enzymes will be given bio-engineered enzymes for the rest of their lives. The may experience other health-related issues and may have to have a feeding tube inserted in their stomachs.
Enzymes control the rate of chemical reactions by lowering the activation energy required for the reaction to occur. This enables reactions to proceed at a faster pace and with more specificity than without enzymes. Enzymes do not change the overall equilibrium of a reaction.
The Axis powers controlled the Mediterranean in May-November 1942?