Chapter 72 - 72 Enzyme

Chapter 72: Chapter 72 Enzyme

Now that the road has been indicated, all that remains is the process of taking the road.

Although the collectors know nothing about enzymes, this can be tried, and tens of thousands of collectors participate in the experiment.

Their approach is just like the permanent integration of the gene chain in the cell into chromosomes, using a single cell as the experimental body, manipulating the gene chain in the cell to expand, and then introducing enzymes from the outside into the inside of the cell, and then observing the reaction. The source of this content nov(el)bi((n))

Time is like a worthless stream of water, and it is soon fleeting. I don't know how many days and nights have changed. They have finally figured out the research on enzymes.

Through the action, the research information of enzymes is summarized and sustainable.

It is divided into six categories, namely, oxidoreductases, transferases, hydrolytic enzymes, lyslitases, isomerases, and synthases.

Redox enzymes are simply enzymes that promote catalytic effects on these two reactions. If this enzyme is subdivided, it can be divided into oxidase and reductase.

Transferases are enzymes that exchange or transfer groups between catalytic compounds.

Hydrolytic enzymes are catalytic hydrolysis reactions, and protein water formation amino acids rely on such enzymes.

裂合合 enzymes catalytic compounds remove a group in a non-hydrolyzed state and leave a double bond reaction or its reverse reaction. This enzyme can dehydrate and condensize amino acids to form proteins.

The above can only be regarded as the side dishes from the results of many enzyme experiments. What really excites the sustainability is the remaining two enzymes.

Isomerases catalyze compounds with the same chemical formula, the same chemical bonds and different atomic arrangement, so that these compounds can transform each other. Among these enzymes, there are individual enzymes that can break the gene chain.

Synthases are enzymes that catalyze the combination of two molecules into one molecule, and DNA ligases belong to this category.

Three successful big data derivations have established the unparalleled self-confidence of the entire collector population. Their understanding of genes has weakened their reverence for the supreme will, and more eager to become the existence of the supreme will.

May I ask, who can refuse to be a 'god'?

The three-ring-five essays for perpetutive renewal emphasize the danger of being the experimental parent, but the collector who introduces himself is still Luo Ze.

A collector was randomly selected and the experiment officially began.

At the beginning, the difficulties appeared. Collectors can control their bodies to a certain extent. is not as absolute dominance as Hogu.

They can thunwirl genes in cells and increase the division rate of cells. However, they can't do things such as stopping cells breathing and actively closing cell membranes for suicide, which are not included in the normal mechanism of cells.

It is impossible for the limiting enzyme released by the cell itself to destroy its own gene chain, because the limiting enzyme can identify its own gene chain through methylation, and will only target the removal of genes that destroy outsiders.

Huo Gu was successful because he had absolute control over cells and let the gene chain take the initiative to remove the identification mark of methylation before he successfully completed the modification of the gene.

Obviously, this is not included in the normal mechanism of cells, which is impossible for collectors.

However, it is not without compromise, that is, foreign enzymes.

As the collector of the experimental mother body, he swallowed a round meat ball, which was a meat ball that was permanently split through cells. The inside of the sphere was hollow and full of enzyme solution for the experiment, and the whole was shaped like a balloon full of water.

The extraction of enzymes is obtained by killing microorganisms, not the enzymes released by the collector's own cells. Therefore, it can work on the collector's own cells to make these enzyme solutions, but it takes a lot of effort to last.

The meat ball passes through the digestive cavity and enters the drainage cavity. At this time, the external protein body has been almost corroded, the sphere is broken, and the drainage cavity is full of a large amount of enzymes.

The enzyme passes through the breath of the experimental cell, passes through the cell membrane and enters the inside of the cell.

At this time, the gene chain inside the cell has already untied the spiral structure under the will of the mother, forming a single chain to welcome the arrival of enzymes.