The nitrogenous bases placed in between the DNA double helix strands, like rungs on a ladder, are positioned there because of the hydrophobic effect and are stabilized by hydrogen bonding. The stability of DNA also relies on the interactions between the hydrogen bonds between bases, hydrogen bonds between bases and surrounding water, and base interaction between neighboring bases.
Hydrogen bonds are able to stabilize the DNA double helix by pairing up with their complementary base pairs (guanine with cytosine and adenine with thymine)
Hope this was able to help you! I went through my answer and bolded the more important parts, and parts more useful for answering the question.
Explanation:
RNA polymerase is responsible for copying a DNA sequence into an RNA sequence during the transcription process
<em>A.) GPS monitoring of plate speeds and movements.</em>
<em>I know this is correct because it is constantly paying attention to what is going on with the tectonic plate, monitoring their movement every day, making it the most recent.</em>
<em>Hope this helps and have a nice day.</em>
<em>-R3TR0 Z3R0</em>
"синквейн". Считается, что это стимулирует умственную деятельность учащихся, способствует развитию творческого мышления, навыков письма и чтения, умения анализировать и делать выводы, формулируя их кратко. Кроме того, очень интересно составлять синквейны, и дети с удовольствием этим занимаются.
Что такое Синквин?
Эта форма стихосложения возникла по предложению американской Аделаиды Крапси в начале прошлого века, благодаря восточным принципам поэзии - хайку и танка. В результате получился синквейн - лаконичная пятистрочная поэтическая форма, несущая синтезированную информацию. Синквейн делится на несколько разновидностей, каждая из которых имеет определенные правила составления.
мое слово присутствует!
Answer: The acetyl CoA used in the first step is immediately returned to the process of acetyl CoA used in the first step is immediately returned to the process of acetyl CoA formation.
The Kreb's cycle is also known as citric acid cycle or tricarboxylic acid cycle is the process which involves a series of reaction which is required to breakdown food into form of energy that a cell can use. The cycle starts in the mitrochondria of the cell where glycolysis takes place utilizing two molecules of pyruvic acid to produce energy molecules in the form of ATP. The end products of Kreb's cycle includes 2 ATP, 10 NADH, 2 FADH₂ and oxaloacetic acid molecules per 2 molecules of pyruvic acid. NADH and FADH₂ are accepted by the electron transport chain. The final product which is left after kreb's cycle is oxaloacetic acid. The Kreb's cycle is called as a cycle because oxaloacetic acid is the molecule required to accept an acetyl-CoA molecule and start another turn of the cycle.