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The chances of them all emerging as the result of chance is 10 40000. To do so, it sends to the enzyme a substance similar to the one it normally combines with, and the enzyme attaches to this substitute instead. One such scientist is the microbiologist Malcolm Dixon:Every minute the enzyme system does what chemists working a full shift cannot. (Qur'an, 82:6-8)(1) Harun Yahya, The Miracle of Protein, Istanbul, Vural Publishing, March 2001. Because if these imitation substances always existed in the cell at all times, they would then also halt production by distracting enzymes when they're most urgently required. For example, while a large number of enzymes can be effective in fluids with a neutral pH, those enzymes charged with digesting foodstuffs in the stomach can work effectively only under a highly acidic environment. No enzyme does the tasks of another, nor makes a mistake in performing its own, because each enzyme is specially formulated for performing its own task. Two thousand basic enzymes are essential if life is to survive. The way they assume the responsibility of initiating or accelerating reactions is a matter worth reflecting on. An enzyme known as anhydrase accelerates the process of cleansing carbon dioxide by a factor of 10 million times! At this speed, the anhydrase can transform 36 million molecules every minute. Were it not for these enzymes, none of our functions, from the simplest to the most complex, could take place, or else would occur so slowly as to stop altogether. Even if we think of the whole universe as an organic soup it is still impossible for such a minute probability to come about. This fact is revealed in a verse from the Qur'an as follows:O man! What has deluded you in respect of your Noble Lord? He Who created you and formed you and proportioned you and assembled you in whatever way He willed. Unless some agent is present to prevent them, various enzymes will constantly initiate and accelerate all of the various chemical reactions in the body. So how did the first enzyme come into being? The answer is obvious. Each one is in the right place that matches its design and characteristics. Scientists Reject Evolutionist Claims of ChanceAs more and more details emerge about the structure of enzymes, proteins and other similar structures, the invalidity of the theory of evolution becomes even more apparent. Yet 50 "pre-enzymes" work together to produce a single enzyme.
We could not speak, eat, digest, see or even breathe- in short, we could not live. By means of this method, enzyme activities are thus halted until such time as whatever substance is produced as a result of the reaction triggered by the enzyme falls below a specific level. So complex and detailed are these processes that at every stage, the intervention of "super-regulators" is essential to control the whole system that maintain order and accelerate events., p. This could eventually lead to over-production of particular proteins or certain damaging imbalances within the cell. Take one example from your daily life of how Three-phase relays Suppliers enzymes accelerate the processes taking place within your body: Thanks to an enzyme involved in the removal of carbon dioxide from the blood as you inhale, you do not suffocate.(3) Pitman, Ibid. Almighty God, the flawless Creator, created every living thing and its cells in one single moment, together with all their necessary enzymes and proteins. Enzymes' most important tasks are to initiate, halt and accelerate various chemical reactions in the body.. Therefore, this "imitative" substance keeps the enzyme occupied and for a while, forestalls it from unwanted activity. This inhibition of the enzyme is therefore known as a competitive inhibitor.However, the cell's working enzymes carry out their tasks silently and faultlessly in the relatively low heat from the body and with the energy they obtain from nutrients. Higher temperatures are needed to initiate most chemical reactions. Moreover, every enzyme accelerates specific chemical reactions in the body. In short, to enable any single enzyme to function, all the other requisite enzymes, cells, systems and structures have to be already in place, in full working order. Just one of these characteristics is sufficient to show how enzymes have been specially designed to make every reaction occurring place in the body perfect yet completely efficient. Yet such high temperature could pose a danger to living cells, causing them injury or death.
The Body's Rapid and Economical Production Vehicles Enzymes permit vital reactions to take place as quickly as possible, and also to exploit the body's energy in the most efficient way. Moreover, enzymes resemble conscious hunters, in that they lie in wait, making a shelter for themselves to hide in, where they remain ready to join with their appropriate substance. First of all, it will be useful to realize that proteins, fats, carbohydrates and vitamins composed of unconscious atoms are making the calculations, taking the decisions and implementing the plans just described, and not trained human beings with consciousness and a sense of responsibility. This raises a very difficult question for any reasonable scientist: How did the first enzyme come into existence in the absence of the others? This is a question for which evolutionists can never provide an answer. In addition to the problems posed by enzymes' chemical production, they have another extraordinary feature: Once enzymes form, they can easily dissipate again or become passive unless just the right conditions are maintained. Because the level of electricity needed to power trillions of machines, of 2,000 different types, all working perfectly at such high speeds would be enormous. But the cells' timing is always perfectly accurate. And so, it is the cell itself that regulates the enzymes' activity. 1 Enzymes' Lock-and-Key CompatibilityThe molecular shapes of enzymes are completely in conformity with whatever substance they are designed to act upon.(2) Michael Pitman, Adam and Evolution, London, River Publishing, 1984, p. The chances of a single enzyme coming into being by chance are greater than 1020. Even though a person has no knowledge of everything that is happening inside his body, enzymes are not only aware of it, but also intervene in all processes in a most vital and accurate manner. The way enzymes detect the substance they match, then head towards and combine with it is exceedingly deliberate behavior. Again, saliva contains the enzyme amylase, which breaks starch down into maltose and accompanies food along the esophagus, but it is neutralized when it reaches the acidic environment in the stomach. The cell determines the amount of substance produced, as if were doing a control of inventory. In a laboratory environment, therefore, an exceedingly high level of heat and energy are needed in order to carry out even a simple reaction in the cell. The solution to this dilemma lies in enzymes. The more advanced research is carried out, the more detailed a design emerges. If you compare the human body to a factory, with the many enzymes working within its cells as various means of production, no source of energy would be able to run with that factory. Enzymes are produced by mitochondria inside each cell. 2 Enzymes' structure is too complex to have emerged by chance—a fact that is expressed in the famous biochemist Michael Pitman's probability calculations:As we know, there are some 1080 atoms in the universe and 1017 seconds have gone by since the Big Bang. In either case, the result would be the same—death. When the cell decides an enzyme to halt in its actions, it distracts it with an extraordinary act of conscious planning.This information is not to be read once and then forgotten.
Such an organized, intelligent form of behavior that is performed in sequence, one after the other, by molecules too small to be seen with the naked eye, is just one of the countless signs of the superior nature of God's creation.Every living cell contains thousands of enzymes, each of which performs its own tasks, such as assisting with the copying of DNA, breaking down foodstuffs and producing energy from them, and constructing chains of compounds from simple molecules.144. Yet another enzyme requires nine different other enzymes before it can synthesize a single amino acid. How the cell produces the imitation substance to occupy the enzyme and releases it at just the proper time is highly planned behavior. Obviously, these apparently conscious substances behave under our Lord's command. As the cells perform their functions, the chemicals inside them must react accordingly. Large parts of enzymes consist of proteins, the rest of are vitamins and vitamin-like substances. These super-regulating chemicals in the human body are enzymes.An obvious miracle of creation, enzymes manage to initiate or accelerate chemical reactions even in the absence of high temperature, yet as catalysts, they do not enter into—or are themselves changed—by these reactions. And when it decides that production needs to be halted for a while, it implements an exceedingly sophisticated procedure in order to do so.Every second, more processes than can be counted are carried out in the bodies of all living things. They avoid environments in which they might be harmed or become ineffective. 3As these scientists have said, it is impossible for even a single enzyme to form spontaneously by chance. In other words, they cease to function until and unless they are needed. Could anyone believe that naturally occurring enzymes became aware of themselves and hundreds of their counterparts as the result of chance? Enzymes and enzyme systems are touchstones of the same genetic mechanism. Each enzyme—and the substance it will affect by combining with it—fit together precisely in a three-dimensional complex geometry. But once it arrives there, in any case, its work is done. Even as you read these lines, a large number of enzymes are controlling reactions taking place throughout your body and providing the nourishment and energy your cells need to stay healthy and functioning. In order to snare the enzyme, however, this imitation substance must also compete with its genuine counterpart. These structures in the micro-world lead scientists, willingly or otherwise, to accept the fact that there is a flawless design in life
We could not speak, eat, digest, see or even breathe- in short, we could not live. By means of this method, enzyme activities are thus halted until such time as whatever substance is produced as a result of the reaction triggered by the enzyme falls below a specific level. So complex and detailed are these processes that at every stage, the intervention of "super-regulators" is essential to control the whole system that maintain order and accelerate events., p. This could eventually lead to over-production of particular proteins or certain damaging imbalances within the cell. Take one example from your daily life of how Three-phase relays Suppliers enzymes accelerate the processes taking place within your body: Thanks to an enzyme involved in the removal of carbon dioxide from the blood as you inhale, you do not suffocate.(3) Pitman, Ibid. Almighty God, the flawless Creator, created every living thing and its cells in one single moment, together with all their necessary enzymes and proteins. Enzymes' most important tasks are to initiate, halt and accelerate various chemical reactions in the body.. Therefore, this "imitative" substance keeps the enzyme occupied and for a while, forestalls it from unwanted activity. This inhibition of the enzyme is therefore known as a competitive inhibitor.However, the cell's working enzymes carry out their tasks silently and faultlessly in the relatively low heat from the body and with the energy they obtain from nutrients. Higher temperatures are needed to initiate most chemical reactions. Moreover, every enzyme accelerates specific chemical reactions in the body. In short, to enable any single enzyme to function, all the other requisite enzymes, cells, systems and structures have to be already in place, in full working order. Just one of these characteristics is sufficient to show how enzymes have been specially designed to make every reaction occurring place in the body perfect yet completely efficient. Yet such high temperature could pose a danger to living cells, causing them injury or death.
The Body's Rapid and Economical Production Vehicles Enzymes permit vital reactions to take place as quickly as possible, and also to exploit the body's energy in the most efficient way. Moreover, enzymes resemble conscious hunters, in that they lie in wait, making a shelter for themselves to hide in, where they remain ready to join with their appropriate substance. First of all, it will be useful to realize that proteins, fats, carbohydrates and vitamins composed of unconscious atoms are making the calculations, taking the decisions and implementing the plans just described, and not trained human beings with consciousness and a sense of responsibility. This raises a very difficult question for any reasonable scientist: How did the first enzyme come into existence in the absence of the others? This is a question for which evolutionists can never provide an answer. In addition to the problems posed by enzymes' chemical production, they have another extraordinary feature: Once enzymes form, they can easily dissipate again or become passive unless just the right conditions are maintained. Because the level of electricity needed to power trillions of machines, of 2,000 different types, all working perfectly at such high speeds would be enormous. But the cells' timing is always perfectly accurate. And so, it is the cell itself that regulates the enzymes' activity. 1 Enzymes' Lock-and-Key CompatibilityThe molecular shapes of enzymes are completely in conformity with whatever substance they are designed to act upon.(2) Michael Pitman, Adam and Evolution, London, River Publishing, 1984, p. The chances of a single enzyme coming into being by chance are greater than 1020. Even though a person has no knowledge of everything that is happening inside his body, enzymes are not only aware of it, but also intervene in all processes in a most vital and accurate manner. The way enzymes detect the substance they match, then head towards and combine with it is exceedingly deliberate behavior. Again, saliva contains the enzyme amylase, which breaks starch down into maltose and accompanies food along the esophagus, but it is neutralized when it reaches the acidic environment in the stomach. The cell determines the amount of substance produced, as if were doing a control of inventory. In a laboratory environment, therefore, an exceedingly high level of heat and energy are needed in order to carry out even a simple reaction in the cell. The solution to this dilemma lies in enzymes. The more advanced research is carried out, the more detailed a design emerges. If you compare the human body to a factory, with the many enzymes working within its cells as various means of production, no source of energy would be able to run with that factory. Enzymes are produced by mitochondria inside each cell. 2 Enzymes' structure is too complex to have emerged by chance—a fact that is expressed in the famous biochemist Michael Pitman's probability calculations:As we know, there are some 1080 atoms in the universe and 1017 seconds have gone by since the Big Bang. In either case, the result would be the same—death. When the cell decides an enzyme to halt in its actions, it distracts it with an extraordinary act of conscious planning.This information is not to be read once and then forgotten.
Such an organized, intelligent form of behavior that is performed in sequence, one after the other, by molecules too small to be seen with the naked eye, is just one of the countless signs of the superior nature of God's creation.Every living cell contains thousands of enzymes, each of which performs its own tasks, such as assisting with the copying of DNA, breaking down foodstuffs and producing energy from them, and constructing chains of compounds from simple molecules.144. Yet another enzyme requires nine different other enzymes before it can synthesize a single amino acid. How the cell produces the imitation substance to occupy the enzyme and releases it at just the proper time is highly planned behavior. Obviously, these apparently conscious substances behave under our Lord's command. As the cells perform their functions, the chemicals inside them must react accordingly. Large parts of enzymes consist of proteins, the rest of are vitamins and vitamin-like substances. These super-regulating chemicals in the human body are enzymes.An obvious miracle of creation, enzymes manage to initiate or accelerate chemical reactions even in the absence of high temperature, yet as catalysts, they do not enter into—or are themselves changed—by these reactions. And when it decides that production needs to be halted for a while, it implements an exceedingly sophisticated procedure in order to do so.Every second, more processes than can be counted are carried out in the bodies of all living things. They avoid environments in which they might be harmed or become ineffective. 3As these scientists have said, it is impossible for even a single enzyme to form spontaneously by chance. In other words, they cease to function until and unless they are needed. Could anyone believe that naturally occurring enzymes became aware of themselves and hundreds of their counterparts as the result of chance? Enzymes and enzyme systems are touchstones of the same genetic mechanism. Each enzyme—and the substance it will affect by combining with it—fit together precisely in a three-dimensional complex geometry. But once it arrives there, in any case, its work is done. Even as you read these lines, a large number of enzymes are controlling reactions taking place throughout your body and providing the nourishment and energy your cells need to stay healthy and functioning. In order to snare the enzyme, however, this imitation substance must also compete with its genuine counterpart. These structures in the micro-world lead scientists, willingly or otherwise, to accept the fact that there is a flawless design in life
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